diff --git a/api/api_autogen/library/defaults/Cashloan_WindPowerCommercial.json b/api/api_autogen/library/defaults/Cashloan_WindPowerCommercial.json index b6310b9ce2..f3a72520fb 100644 --- a/api/api_autogen/library/defaults/Cashloan_WindPowerCommercial.json +++ b/api/api_autogen/library/defaults/Cashloan_WindPowerCommercial.json @@ -175,7 +175,7 @@ "gen": [0] }, "Lifetime": { - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "LCOS": { "batt_salvage_percentage": 0 diff --git a/api/api_autogen/library/defaults/Cashloan_WindPowerResidential.json b/api/api_autogen/library/defaults/Cashloan_WindPowerResidential.json index de17d0acfa..eec6e9e5b2 100644 --- a/api/api_autogen/library/defaults/Cashloan_WindPowerResidential.json +++ b/api/api_autogen/library/defaults/Cashloan_WindPowerResidential.json @@ -171,7 +171,7 @@ "gen": [0] }, "Lifetime": { - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "LCOS": { "batt_salvage_percentage": 0 diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryAllEquityPartnershipFlip.json index 999fda1687..bec9d95a77 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryAllEquityPartnershipFlip.json @@ -11,8 +11,8 @@ "user_capacity_factor": 43.6 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryCommercial.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryCommercial.json index f696b0afaf..660e55a416 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryCommercial.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryCommercial.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryHostDeveloper.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryHostDeveloper.json index f696b0afaf..660e55a416 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryHostDeveloper.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryHostDeveloper.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryLeveragedPartnershipFlip.json index 999fda1687..bec9d95a77 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryLeveragedPartnershipFlip.json @@ -11,8 +11,8 @@ "user_capacity_factor": 43.6 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryMerchantPlant.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryMerchantPlant.json index 2b88967df9..16aa4f253f 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryMerchantPlant.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryMerchantPlant.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryResidential.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryResidential.json index 0e5fa8d1d8..0fffd3e3b9 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryResidential.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryResidential.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySaleLeaseback.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySaleLeaseback.json index 999fda1687..bec9d95a77 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySaleLeaseback.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySaleLeaseback.json @@ -11,8 +11,8 @@ "user_capacity_factor": 43.6 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySingleOwner.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySingleOwner.json index 2b88967df9..16aa4f253f 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySingleOwner.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatterySingleOwner.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryThirdParty.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryThirdParty.json index f2dd00e132..4ebf374d9c 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryThirdParty.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationBatteryThirdParty.json @@ -11,8 +11,8 @@ "user_capacity_factor": 20 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileAllEquityPartnershipFlip.json index 7dea0063c6..42d23ef8f2 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileAllEquityPartnershipFlip.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileCommercial.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileCommercial.json index de8473f85d..9add15218d 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileCommercial.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileCommercial.json @@ -11,8 +11,8 @@ "user_capacity_factor": 43.6 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileHostDeveloper.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileHostDeveloper.json index bdf08cc589..cc2d1e00bc 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileHostDeveloper.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileHostDeveloper.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileLeveragedPartnershipFlip.json index f9484f058f..ba465e6a0f 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileLeveragedPartnershipFlip.json @@ -11,8 +11,8 @@ "user_capacity_factor": 100 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileMerchantPlant.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileMerchantPlant.json index 7dea0063c6..42d23ef8f2 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileMerchantPlant.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileMerchantPlant.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileResidential.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileResidential.json index 79a9f660a5..599a5a8514 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileResidential.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileResidential.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSaleLeaseback.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSaleLeaseback.json index 7dea0063c6..42d23ef8f2 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSaleLeaseback.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSaleLeaseback.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSingleOwner.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSingleOwner.json index 7dea0063c6..42d23ef8f2 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSingleOwner.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileSingleOwner.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileThirdParty.json b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileThirdParty.json index 7df8462ce8..e2d3fd5caf 100644 --- a/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileThirdParty.json +++ b/api/api_autogen/library/defaults/CustomGeneration_CustomGenerationProfileThirdParty.json @@ -11,8 +11,8 @@ "user_capacity_factor": 90 }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 25, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/Equpartflip_WindPowerAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/Equpartflip_WindPowerAllEquityPartnershipFlip.json index 4e241215f7..bcb2df725f 100644 --- a/api/api_autogen/library/defaults/Equpartflip_WindPowerAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Equpartflip_WindPowerAllEquityPartnershipFlip.json @@ -237,7 +237,7 @@ "Recapitalization": { }, "TimeOfDelivery": { - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "UtilityBill": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/Grid_WindPowerAllEquityPartnershipFlip.json index 68472cc21b..903c8fbc7e 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerAllEquityPartnershipFlip.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerCommercial.json b/api/api_autogen/library/defaults/Grid_WindPowerCommercial.json index 610ff0ee12..f21e444388 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerCommercial.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerCommercial.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/Grid_WindPowerLeveragedPartnershipFlip.json index 68472cc21b..903c8fbc7e 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerLeveragedPartnershipFlip.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerMerchantPlant.json b/api/api_autogen/library/defaults/Grid_WindPowerMerchantPlant.json index 68472cc21b..903c8fbc7e 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerMerchantPlant.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerMerchantPlant.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerResidential.json b/api/api_autogen/library/defaults/Grid_WindPowerResidential.json index 6f8b747f3f..a9c6343378 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerResidential.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerResidential.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerSaleLeaseback.json b/api/api_autogen/library/defaults/Grid_WindPowerSaleLeaseback.json index 68472cc21b..903c8fbc7e 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerSaleLeaseback.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerSaleLeaseback.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Grid_WindPowerSingleOwner.json b/api/api_autogen/library/defaults/Grid_WindPowerSingleOwner.json index 68472cc21b..903c8fbc7e 100644 --- a/api/api_autogen/library/defaults/Grid_WindPowerSingleOwner.json +++ b/api/api_autogen/library/defaults/Grid_WindPowerSingleOwner.json @@ -2,7 +2,7 @@ "defaults": { "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "SystemOutput": { }, diff --git a/api/api_autogen/library/defaults/Levpartflip_WindPowerLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/Levpartflip_WindPowerLeveragedPartnershipFlip.json index 62d2c7498b..f6404e2a79 100644 --- a/api/api_autogen/library/defaults/Levpartflip_WindPowerLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Levpartflip_WindPowerLeveragedPartnershipFlip.json @@ -260,7 +260,7 @@ "Recapitalization": { }, "TimeOfDelivery": { - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "UtilityBill": { }, diff --git a/api/api_autogen/library/defaults/Merchantplant_WindPowerMerchantPlant.json b/api/api_autogen/library/defaults/Merchantplant_WindPowerMerchantPlant.json index 810d78c646..8129a3cec0 100644 --- a/api/api_autogen/library/defaults/Merchantplant_WindPowerMerchantPlant.json +++ b/api/api_autogen/library/defaults/Merchantplant_WindPowerMerchantPlant.json @@ -219268,7 +219268,7 @@ "UtilityBill": { }, "Lifetime": { - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "FuelCell": { }, diff --git a/api/api_autogen/library/defaults/MhkWave_MEwaveBatterySingleOwner.json b/api/api_autogen/library/defaults/MhkWave_MEwaveBatterySingleOwner.json index 76e8120637..af1437dc33 100644 --- a/api/api_autogen/library/defaults/MhkWave_MEwaveBatterySingleOwner.json +++ b/api/api_autogen/library/defaults/MhkWave_MEwaveBatterySingleOwner.json @@ -43,8 +43,8 @@ "year": [2010.000000] }, "Lifetime": { + "ac_degradation": [0.000000], "analysis_period": 20, - "generic_degradation": [0.000000], "system_use_lifetime_output": 1 }, "AdjustmentFactors": { diff --git a/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json index fe288e3101..4a60de578a 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 2, diff --git a/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json index 74b6ef39c9..19c133b306 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 2, diff --git a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridHostDeveloper.json index 9f84089227..b3c620de93 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridHostDeveloper.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 1, diff --git a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridSingleOwner.json index 74b6ef39c9..19c133b306 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindBatteryHybridSingleOwner.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 2, diff --git a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridHostDeveloper.json index 9f84089227..b3c620de93 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridHostDeveloper.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 1, diff --git a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridSingleOwner.json index ba7682bb46..674864dc8f 100644 --- a/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Pvwattsv8_PVWattsWindFuelCellBatteryHybridSingleOwner.json @@ -6,7 +6,8 @@ }, "Lifetime": { "analysis_period": 25, - "system_use_lifetime_output": 0 + "dc_degradation": [0.500000], + "system_use_lifetime_output": 1 }, "SystemDesign": { "array_type": 2, diff --git a/api/api_autogen/library/defaults/Saleleaseback_WindPowerSaleLeaseback.json b/api/api_autogen/library/defaults/Saleleaseback_WindPowerSaleLeaseback.json index 008c3e2547..c4307ae4f9 100644 --- a/api/api_autogen/library/defaults/Saleleaseback_WindPowerSaleLeaseback.json +++ b/api/api_autogen/library/defaults/Saleleaseback_WindPowerSaleLeaseback.json @@ -241,7 +241,7 @@ "salvage_percentage": 0, "sponsor_operating_margin": 20, "sponsor_operating_margin_escalation": 2, - "system_use_lifetime_output": 0, + "system_use_lifetime_output": 1, "tax_investor_required_lease_reserve": 6, "total_installed_cost": 3.1748e+08 }, diff --git a/api/api_autogen/library/defaults/Singleowner_WindPowerSingleOwner.json b/api/api_autogen/library/defaults/Singleowner_WindPowerSingleOwner.json index 2080bab9fa..53420d03da 100644 --- a/api/api_autogen/library/defaults/Singleowner_WindPowerSingleOwner.json +++ b/api/api_autogen/library/defaults/Singleowner_WindPowerSingleOwner.json @@ -373,7 +373,7 @@ }, "Lifetime": { "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "FuelCell": { }, diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerAllEquityPartnershipFlip.json index 5707055e04..3dd7341197 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerAllEquityPartnershipFlip.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "en_electricity_rates": 0, diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerCommercial.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerCommercial.json index d5e88a68c5..d50bae13e4 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerCommercial.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerCommercial.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "rate_escalation": [0.000000], diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerLeveragedPartnershipFlip.json index 5707055e04..3dd7341197 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerLeveragedPartnershipFlip.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "en_electricity_rates": 0, diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerMerchantPlant.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerMerchantPlant.json index 1bace8f5c9..8f483d62af 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerMerchantPlant.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerMerchantPlant.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "en_electricity_rates": 0, diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerResidential.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerResidential.json index 721fc51920..df1725e72f 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerResidential.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerResidential.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "rate_escalation": [0.000000], diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerSaleLeaseback.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerSaleLeaseback.json index 5707055e04..3dd7341197 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerSaleLeaseback.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerSaleLeaseback.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "en_electricity_rates": 0, diff --git a/api/api_autogen/library/defaults/Utilityrate5_WindPowerSingleOwner.json b/api/api_autogen/library/defaults/Utilityrate5_WindPowerSingleOwner.json index 1bace8f5c9..8f483d62af 100644 --- a/api/api_autogen/library/defaults/Utilityrate5_WindPowerSingleOwner.json +++ b/api/api_autogen/library/defaults/Utilityrate5_WindPowerSingleOwner.json @@ -3,7 +3,7 @@ "Lifetime": { "analysis_period": 25, "inflation_rate": 2.5, - "system_use_lifetime_output": 0 + "system_use_lifetime_output": 1 }, "ElectricityRates": { "en_electricity_rates": 0, diff --git a/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json index 728ea8f8b1..59f575abdd 100644 --- a/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridHostDeveloper.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [39.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json index f330f86fbb..bfb3253286 100644 --- a/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Windpower_CustomGenerationPVWattsWindFuelCellBatteryHybridSingleOwner.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [40.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridHostDeveloper.json index 728ea8f8b1..59f575abdd 100644 --- a/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridHostDeveloper.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [39.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridSingleOwner.json index f330f86fbb..bfb3253286 100644 --- a/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Windpower_PVWattsWindBatteryHybridSingleOwner.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [40.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridHostDeveloper.json index 728ea8f8b1..59f575abdd 100644 --- a/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridHostDeveloper.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [39.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridSingleOwner.json index f330f86fbb..bfb3253286 100644 --- a/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Windpower_PVWattsWindFuelCellBatteryHybridSingleOwner.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [40.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridHostDeveloper.json b/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridHostDeveloper.json index 9a820aa5d3..3b64928bef 100644 --- a/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridHostDeveloper.json +++ b/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridHostDeveloper.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [39.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridSingleOwner.json b/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridSingleOwner.json index f330f86fbb..bfb3253286 100644 --- a/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridSingleOwner.json +++ b/api/api_autogen/library/defaults/Windpower_PhotovoltaicWindBatteryHybridSingleOwner.json @@ -46,6 +46,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, @@ -58,7 +63,7 @@ "Uncertainty": { }, "HybridCosts": { - "degradation": [0.000000], + "degradation": [0.640000], "om_capacity": [40.000000], "om_capacity_escal": 0, "om_fixed": [0.000000], diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerAllEquityPartnershipFlip.json b/api/api_autogen/library/defaults/Windpower_WindPowerAllEquityPartnershipFlip.json index b66f2a409a..b215e44dc4 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerAllEquityPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerAllEquityPartnershipFlip.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerCommercial.json b/api/api_autogen/library/defaults/Windpower_WindPowerCommercial.json index 9650a28bc5..5f1aa19d0f 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerCommercial.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerCommercial.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerLCOECalculator.json b/api/api_autogen/library/defaults/Windpower_WindPowerLCOECalculator.json index b66f2a409a..e9ce035ea3 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerLCOECalculator.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerLCOECalculator.json @@ -61,6 +61,8 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerLeveragedPartnershipFlip.json b/api/api_autogen/library/defaults/Windpower_WindPowerLeveragedPartnershipFlip.json index b66f2a409a..b215e44dc4 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerLeveragedPartnershipFlip.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerLeveragedPartnershipFlip.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerMerchantPlant.json b/api/api_autogen/library/defaults/Windpower_WindPowerMerchantPlant.json index 85f85bb3e3..96f9934de5 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerMerchantPlant.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerMerchantPlant.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerNone.json b/api/api_autogen/library/defaults/Windpower_WindPowerNone.json index b6f81e2a1e..a3409c4667 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerNone.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerNone.json @@ -61,6 +61,8 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerResidential.json b/api/api_autogen/library/defaults/Windpower_WindPowerResidential.json index 8ca66a73f5..bc2b9b5850 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerResidential.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerResidential.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerSaleLeaseback.json b/api/api_autogen/library/defaults/Windpower_WindPowerSaleLeaseback.json index b66f2a409a..b215e44dc4 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerSaleLeaseback.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerSaleLeaseback.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/api_autogen/library/defaults/Windpower_WindPowerSingleOwner.json b/api/api_autogen/library/defaults/Windpower_WindPowerSingleOwner.json index b66f2a409a..b215e44dc4 100644 --- a/api/api_autogen/library/defaults/Windpower_WindPowerSingleOwner.json +++ b/api/api_autogen/library/defaults/Windpower_WindPowerSingleOwner.json @@ -61,6 +61,11 @@ "wake_future_loss": 0, "wake_int_loss": 0 }, + "Lifetime": { + "ac_degradation": [0.640000], + "analysis_period": 25, + "system_use_lifetime_output": 1 + }, "AdjustmentFactors": { "adjust_constant": 0, "adjust_en_periods": 0, diff --git a/api/include/SAM_CustomGeneration.h b/api/include/SAM_CustomGeneration.h index c39c443854..36989573f2 100644 --- a/api/include/SAM_CustomGeneration.h +++ b/api/include/SAM_CustomGeneration.h @@ -101,20 +101,20 @@ extern "C" // /** - * Set analysis_period: Lifetime analysis period [years] + * Set ac_degradation: Annual AC degradation [%/year] * options: None * constraints: None * required if: system_use_lifetime_output=1 */ - SAM_EXPORT void SAM_CustomGeneration_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err); + SAM_EXPORT void SAM_CustomGeneration_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err); /** - * Set generic_degradation: Annual AC degradation [%/year] + * Set analysis_period: Lifetime analysis period [years] * options: None * constraints: None * required if: system_use_lifetime_output=1 */ - SAM_EXPORT void SAM_CustomGeneration_Lifetime_generic_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err); + SAM_EXPORT void SAM_CustomGeneration_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err); /** * Set system_use_lifetime_output: Custom generation profile lifetime simulation [0/1] @@ -312,9 +312,9 @@ extern "C" * Lifetime Getters */ - SAM_EXPORT double SAM_CustomGeneration_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err); + SAM_EXPORT double* SAM_CustomGeneration_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err); - SAM_EXPORT double* SAM_CustomGeneration_Lifetime_generic_degradation_aget(SAM_table ptr, int* length, SAM_error *err); + SAM_EXPORT double SAM_CustomGeneration_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err); SAM_EXPORT double SAM_CustomGeneration_Lifetime_system_use_lifetime_output_nget(SAM_table ptr, SAM_error *err); diff --git a/api/include/SAM_MhkWave.h b/api/include/SAM_MhkWave.h index 8a352af868..1f2c9198a8 100644 --- a/api/include/SAM_MhkWave.h +++ b/api/include/SAM_MhkWave.h @@ -245,20 +245,20 @@ extern "C" // /** - * Set analysis_period: Lifetime analysis period [years] + * Set ac_degradation: Annual AC degradation [%/year] * options: None * constraints: None * required if: system_use_lifetime_output=1 */ - SAM_EXPORT void SAM_MhkWave_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err); + SAM_EXPORT void SAM_MhkWave_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err); /** - * Set generic_degradation: Annual AC degradation [%/year] + * Set analysis_period: Lifetime analysis period [years] * options: None * constraints: None * required if: system_use_lifetime_output=1 */ - SAM_EXPORT void SAM_MhkWave_Lifetime_generic_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err); + SAM_EXPORT void SAM_MhkWave_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err); /** * Set system_use_lifetime_output: Generic lifetime simulation [0/1] @@ -375,9 +375,9 @@ extern "C" * Lifetime Getters */ - SAM_EXPORT double SAM_MhkWave_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err); + SAM_EXPORT double* SAM_MhkWave_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err); - SAM_EXPORT double* SAM_MhkWave_Lifetime_generic_degradation_aget(SAM_table ptr, int* length, SAM_error *err); + SAM_EXPORT double SAM_MhkWave_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err); SAM_EXPORT double SAM_MhkWave_Lifetime_system_use_lifetime_output_nget(SAM_table ptr, SAM_error *err); diff --git a/api/include/SAM_Windpower.h b/api/include/SAM_Windpower.h index ec093f4005..9d1758d6a6 100644 --- a/api/include/SAM_Windpower.h +++ b/api/include/SAM_Windpower.h @@ -431,6 +431,35 @@ extern "C" SAM_EXPORT void SAM_Windpower_Losses_wake_int_loss_nset(SAM_table ptr, double number, SAM_error *err); + // + // Lifetime parameters + // + + /** + * Set ac_degradation: Annual AC degradation for lifetime simulations [%/year] + * options: None + * constraints: None + * required if: system_use_lifetime_output=1 + */ + SAM_EXPORT void SAM_Windpower_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err); + + /** + * Set analysis_period: Analysis period [years] + * options: None + * constraints: None + * required if: system_use_lifetime_output=1 + */ + SAM_EXPORT void SAM_Windpower_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err); + + /** + * Set system_use_lifetime_output: Run lifetime simulation [0/1] + * options: None + * constraints: None + * required if: ?=0 + */ + SAM_EXPORT void SAM_Windpower_Lifetime_system_use_lifetime_output_nset(SAM_table ptr, double number, SAM_error *err); + + // // AdjustmentFactors parameters // @@ -698,6 +727,17 @@ extern "C" SAM_EXPORT double SAM_Windpower_Losses_wake_int_loss_nget(SAM_table ptr, SAM_error *err); + /** + * Lifetime Getters + */ + + SAM_EXPORT double* SAM_Windpower_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err); + + SAM_EXPORT double SAM_Windpower_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err); + + SAM_EXPORT double SAM_Windpower_Lifetime_system_use_lifetime_output_nget(SAM_table ptr, SAM_error *err); + + /** * AdjustmentFactors Getters */ diff --git a/api/modules/SAM_CustomGeneration.cpp b/api/modules/SAM_CustomGeneration.cpp index aa8dba3889..02dd4cf2c0 100644 --- a/api/modules/SAM_CustomGeneration.cpp +++ b/api/modules/SAM_CustomGeneration.cpp @@ -62,15 +62,15 @@ SAM_EXPORT void SAM_CustomGeneration_Plant_user_capacity_factor_nset(SAM_table p }); } -SAM_EXPORT void SAM_CustomGeneration_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err){ +SAM_EXPORT void SAM_CustomGeneration_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err){ translateExceptions(err, [&]{ - ssc_data_set_number(ptr, "analysis_period", number); + ssc_data_set_array(ptr, "ac_degradation", arr, length); }); } -SAM_EXPORT void SAM_CustomGeneration_Lifetime_generic_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err){ +SAM_EXPORT void SAM_CustomGeneration_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err){ translateExceptions(err, [&]{ - ssc_data_set_array(ptr, "generic_degradation", arr, length); + ssc_data_set_number(ptr, "analysis_period", number); }); } @@ -268,21 +268,21 @@ SAM_EXPORT double SAM_CustomGeneration_Plant_user_capacity_factor_nget(SAM_table return result; } -SAM_EXPORT double SAM_CustomGeneration_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err){ - double result; +SAM_EXPORT double* SAM_CustomGeneration_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err){ + double* result = nullptr; translateExceptions(err, [&]{ - if (!ssc_data_get_number(ptr, "analysis_period", &result)) - make_access_error("SAM_CustomGeneration", "analysis_period"); + result = ssc_data_get_array(ptr, "ac_degradation", length); + if (!result) + make_access_error("SAM_CustomGeneration", "ac_degradation"); }); return result; } -SAM_EXPORT double* SAM_CustomGeneration_Lifetime_generic_degradation_aget(SAM_table ptr, int* length, SAM_error *err){ - double* result = nullptr; +SAM_EXPORT double SAM_CustomGeneration_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err){ + double result; translateExceptions(err, [&]{ - result = ssc_data_get_array(ptr, "generic_degradation", length); - if (!result) - make_access_error("SAM_CustomGeneration", "generic_degradation"); + if (!ssc_data_get_number(ptr, "analysis_period", &result)) + make_access_error("SAM_CustomGeneration", "analysis_period"); }); return result; } diff --git a/api/modules/SAM_MhkWave.cpp b/api/modules/SAM_MhkWave.cpp index 77a2550272..ed81e23aef 100644 --- a/api/modules/SAM_MhkWave.cpp +++ b/api/modules/SAM_MhkWave.cpp @@ -170,15 +170,15 @@ SAM_EXPORT void SAM_MhkWave_MHKWave_year_aset(SAM_table ptr, double* arr, int le }); } -SAM_EXPORT void SAM_MhkWave_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err){ +SAM_EXPORT void SAM_MhkWave_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err){ translateExceptions(err, [&]{ - ssc_data_set_number(ptr, "analysis_period", number); + ssc_data_set_array(ptr, "ac_degradation", arr, length); }); } -SAM_EXPORT void SAM_MhkWave_Lifetime_generic_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err){ +SAM_EXPORT void SAM_MhkWave_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err){ translateExceptions(err, [&]{ - ssc_data_set_array(ptr, "generic_degradation", arr, length); + ssc_data_set_number(ptr, "analysis_period", number); }); } @@ -462,21 +462,21 @@ SAM_EXPORT double* SAM_MhkWave_MHKWave_year_aget(SAM_table ptr, int* length, SAM return result; } -SAM_EXPORT double SAM_MhkWave_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err){ - double result; +SAM_EXPORT double* SAM_MhkWave_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err){ + double* result = nullptr; translateExceptions(err, [&]{ - if (!ssc_data_get_number(ptr, "analysis_period", &result)) - make_access_error("SAM_MhkWave", "analysis_period"); + result = ssc_data_get_array(ptr, "ac_degradation", length); + if (!result) + make_access_error("SAM_MhkWave", "ac_degradation"); }); return result; } -SAM_EXPORT double* SAM_MhkWave_Lifetime_generic_degradation_aget(SAM_table ptr, int* length, SAM_error *err){ - double* result = nullptr; +SAM_EXPORT double SAM_MhkWave_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err){ + double result; translateExceptions(err, [&]{ - result = ssc_data_get_array(ptr, "generic_degradation", length); - if (!result) - make_access_error("SAM_MhkWave", "generic_degradation"); + if (!ssc_data_get_number(ptr, "analysis_period", &result)) + make_access_error("SAM_MhkWave", "analysis_period"); }); return result; } diff --git a/api/modules/SAM_Windpower.cpp b/api/modules/SAM_Windpower.cpp index 13c3c17a7d..8cabea9f54 100644 --- a/api/modules/SAM_Windpower.cpp +++ b/api/modules/SAM_Windpower.cpp @@ -302,6 +302,24 @@ SAM_EXPORT void SAM_Windpower_Losses_wake_int_loss_nset(SAM_table ptr, double nu }); } +SAM_EXPORT void SAM_Windpower_Lifetime_ac_degradation_aset(SAM_table ptr, double* arr, int length, SAM_error *err){ + translateExceptions(err, [&]{ + ssc_data_set_array(ptr, "ac_degradation", arr, length); + }); +} + +SAM_EXPORT void SAM_Windpower_Lifetime_analysis_period_nset(SAM_table ptr, double number, SAM_error *err){ + translateExceptions(err, [&]{ + ssc_data_set_number(ptr, "analysis_period", number); + }); +} + +SAM_EXPORT void SAM_Windpower_Lifetime_system_use_lifetime_output_nset(SAM_table ptr, double number, SAM_error *err){ + translateExceptions(err, [&]{ + ssc_data_set_number(ptr, "system_use_lifetime_output", number); + }); +} + SAM_EXPORT void SAM_Windpower_AdjustmentFactors_adjust_constant_nset(SAM_table ptr, double number, SAM_error *err){ translateExceptions(err, [&]{ ssc_data_set_number(ptr, "adjust_constant", number); @@ -844,6 +862,34 @@ SAM_EXPORT double SAM_Windpower_Losses_wake_int_loss_nget(SAM_table ptr, SAM_err return result; } +SAM_EXPORT double* SAM_Windpower_Lifetime_ac_degradation_aget(SAM_table ptr, int* length, SAM_error *err){ + double* result = nullptr; + translateExceptions(err, [&]{ + result = ssc_data_get_array(ptr, "ac_degradation", length); + if (!result) + make_access_error("SAM_Windpower", "ac_degradation"); + }); + return result; +} + +SAM_EXPORT double SAM_Windpower_Lifetime_analysis_period_nget(SAM_table ptr, SAM_error *err){ + double result; + translateExceptions(err, [&]{ + if (!ssc_data_get_number(ptr, "analysis_period", &result)) + make_access_error("SAM_Windpower", "analysis_period"); + }); + return result; +} + +SAM_EXPORT double SAM_Windpower_Lifetime_system_use_lifetime_output_nget(SAM_table ptr, SAM_error *err){ + double result; + translateExceptions(err, [&]{ + if (!ssc_data_get_number(ptr, "system_use_lifetime_output", &result)) + make_access_error("SAM_Windpower", "system_use_lifetime_output"); + }); + return result; +} + SAM_EXPORT double SAM_Windpower_AdjustmentFactors_adjust_constant_nget(SAM_table ptr, SAM_error *err){ double result; translateExceptions(err, [&]{ diff --git a/deploy/runtime/defaults/Custom Generation Battery_All Equity Partnership Flip.json b/deploy/runtime/defaults/Custom Generation Battery_All Equity Partnership Flip.json index 15b7dd25af..3c3ac11fb8 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_All Equity Partnership Flip.json +++ b/deploy/runtime/defaults/Custom Generation Battery_All Equity Partnership Flip.json @@ -20195,7 +20195,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Commercial.json b/deploy/runtime/defaults/Custom Generation Battery_Commercial.json index 79d56934bf..297f00e79c 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Commercial.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Commercial.json @@ -37036,7 +37036,7 @@ "first_year_output": 361612.8, "first_year_output_peak": 206.4, "fixed_plant_input": 0.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Host Developer.json b/deploy/runtime/defaults/Custom Generation Battery_Host Developer.json index 2c0cf59498..2f4224a501 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Host Developer.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Host Developer.json @@ -46533,7 +46533,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Leveraged Partnership Flip.json b/deploy/runtime/defaults/Custom Generation Battery_Leveraged Partnership Flip.json index d928995e16..98bd20c809 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Leveraged Partnership Flip.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Leveraged Partnership Flip.json @@ -20203,7 +20203,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Merchant Plant.json b/deploy/runtime/defaults/Custom Generation Battery_Merchant Plant.json index 6ef26d4768..f0c2c804d3 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Merchant Plant.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Merchant Plant.json @@ -10809,7 +10809,7 @@ "first_year_output_peak": 19200.0, "fixed_plant_input": 0.0, "forecast_price_signal_model": 1.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Residential.json b/deploy/runtime/defaults/Custom Generation Battery_Residential.json index b65ce5d0c6..41f08e2259 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Residential.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Residential.json @@ -37026,7 +37026,7 @@ "first_year_output": 13455.36, "first_year_output_peak": 7.68, "fixed_plant_input": 0.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Sale Leaseback.json b/deploy/runtime/defaults/Custom Generation Battery_Sale Leaseback.json index 3ed3d9567a..7d53e24be0 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Sale Leaseback.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Sale Leaseback.json @@ -20190,7 +20190,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Single Owner.json b/deploy/runtime/defaults/Custom Generation Battery_Single Owner.json index 37c49289b5..17d46f803c 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Single Owner.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Single Owner.json @@ -20204,7 +20204,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Battery_Third Party.json b/deploy/runtime/defaults/Custom Generation Battery_Third Party.json index 2ab04720b2..ed08826296 100644 --- a/deploy/runtime/defaults/Custom Generation Battery_Third Party.json +++ b/deploy/runtime/defaults/Custom Generation Battery_Third Party.json @@ -36968,7 +36968,7 @@ ], "first_year_output": 6727.679999999999, "first_year_output_peak": 3.84, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_All Equity Partnership Flip.json b/deploy/runtime/defaults/Custom Generation Profile_All Equity Partnership Flip.json index 7341513076..c3c1f291b7 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_All Equity Partnership Flip.json +++ b/deploy/runtime/defaults/Custom Generation Profile_All Equity Partnership Flip.json @@ -9597,7 +9597,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Commercial.json b/deploy/runtime/defaults/Custom Generation Profile_Commercial.json index 7a97e80481..8c974b9dbf 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Commercial.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Commercial.json @@ -133,7 +133,7 @@ "first_year_output": 35591986.409472, "first_year_output_peak": 9318.8352, "fixed_plant_input": 0.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Host Developer.json b/deploy/runtime/defaults/Custom Generation Profile_Host Developer.json index 3d6b97ee60..f2b8097fbd 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Host Developer.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Host Developer.json @@ -9630,7 +9630,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 10.0, "flip_target_year": 10.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Leveraged Partnership Flip.json b/deploy/runtime/defaults/Custom Generation Profile_Leveraged Partnership Flip.json index 6115a46fbf..f369a299b7 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Leveraged Partnership Flip.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Leveraged Partnership Flip.json @@ -9605,7 +9605,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Merchant Plant.json b/deploy/runtime/defaults/Custom Generation Profile_Merchant Plant.json index 78e6dfcc01..3045a70071 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Merchant Plant.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Merchant Plant.json @@ -211,7 +211,7 @@ "first_year_output_peak": 96000.0, "fixed_plant_input": 0.0, "forecast_price_signal_model": 1.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Residential.json b/deploy/runtime/defaults/Custom Generation Profile_Residential.json index da56388f26..bbd0422380 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Residential.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Residential.json @@ -123,7 +123,7 @@ "first_year_output": 60549.119999999995, "first_year_output_peak": 7.68, "fixed_plant_input": 0.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Sale Leaseback.json b/deploy/runtime/defaults/Custom Generation Profile_Sale Leaseback.json index 1eb0d52c11..3c6c51b7fc 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Sale Leaseback.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Sale Leaseback.json @@ -9592,7 +9592,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Single Owner.json b/deploy/runtime/defaults/Custom Generation Profile_Single Owner.json index 0ea72b45a1..152d5e2401 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Single Owner.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Single Owner.json @@ -9606,7 +9606,7 @@ "fixed_plant_input": 0.0, "flip_target_percent": 11.0, "flip_target_year": 20.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/Custom Generation Profile_Third Party.json b/deploy/runtime/defaults/Custom Generation Profile_Third Party.json index 31c5354d23..0506e3bcb0 100644 --- a/deploy/runtime/defaults/Custom Generation Profile_Third Party.json +++ b/deploy/runtime/defaults/Custom Generation Profile_Third Party.json @@ -73,7 +73,7 @@ ], "first_year_output": 30274.56, "first_year_output_peak": 3.84, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "grid_curtailment": [ diff --git a/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Host Developer.json b/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Host Developer.json index 10aeab9128..28923bd343 100644 --- a/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Host Developer.json +++ b/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Host Developer.json @@ -1,5 +1,8 @@ { "CustomGeneration": { + "ac_degradation": [ + 0.0 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -71,7 +74,7 @@ "spec_mode": 0.0, "system_capacity": 100000.0, "system_capacity_combined": 0.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_direct_cost": 108400000.0, "total_indirect_cost": 21138000.0, "total_installed_cost": 133874000.0, @@ -109,7 +112,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -130,9 +133,12 @@ "contingency_percent": 4.0, "country": "-", "dc_ac_ratio": 1.15, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -168,7 +174,7 @@ "inverter_total": 23478.26086956522, "inverterarray_power": 469.5652173913044, "is_advanced": 0.0, - "land_area_value": 2.340996281197352, + "land_area_value": 2.3409962811973519, "land_fixed": 0.0, "land_per_acre": 0.0, "land_per_watt": 0.0, @@ -201,7 +207,7 @@ "module_power": 540.0, "module_total": 232200.0, "module_type": 0.0, - "modulearray_area": 2842.105263157895, + "modulearray_area": 2842.1052631578947, "modulearray_power": 540.0, "om_capacity": [ 22.0 @@ -277,24 +283,24 @@ "step": 3600.0, "subtotal_direct": 676878.2608695652, "system_capacity": 540.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 0.0, "total_direct_cost": 703953.3913043478, "total_indirect_cost": 205200.0, - "total_installed_cost": 937311.5269565216, - "total_land_area": 2.340996281197352, - "total_module_area": 2842.105263157895, + "total_installed_cost": 937311.5269565217, + "total_land_area": 2.3409962811973519, + "total_module_area": 2842.1052631578947, "tz": -7.0, - "ui_ac_capacity": 0.4695652173913044, - "ui_array_land_area_acres": 2.340996281197352, - "ui_array_land_area_ha": 0.9473690460319912, + "ui_ac_capacity": 0.46956521739130438, + "ui_array_land_area_acres": 2.3409962811973519, + "ui_array_land_area_ha": 0.9473690460319911, "ui_array_land_area_multiplier": 1.0, "ui_land_area_additional": 0.0, "ui_land_area_additional_units": 0.0, "ui_land_area_per_mw": 0.0, "ui_step_minutes": 60.0, - "ui_total_land_area_ha": 0.9473690460319912, - "ui_total_module_area": 2842.105263157895, + "ui_total_land_area_ha": 0.9473690460319911, + "ui_total_module_area": 2842.1052631578947, "ui_total_module_area_acres": 0.7022988843592055, "ui_total_module_area_ha": 0.28421052631578949, "ui_use_acre_per_mw": 0.0, @@ -307,6 +313,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -336,7 +345,7 @@ ], "desired_farm_size": 0.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -373,12 +382,12 @@ "specify_label": 0.0, "step": 3600.0, "system_capacity": 100.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 605500.0, "total_installed_cost_per_kw": 6055.0, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -27794,7 +27803,7 @@ "batt_cell_power_charge_max": 2.0, "batt_cell_power_discharge_max": 2.0, "batt_chem": 1.0, - "batt_computed_bank_capacity": 1200.54312, + "batt_computed_bank_capacity": 1200.5431199999999, "batt_computed_series": 126.0, "batt_computed_stacks_series": 0.0, "batt_computed_strings": 1064.0, @@ -28774,9 +28783,9 @@ "batt_minimum_modetime": 10.0, "batt_num_cells": 134064.0, "batt_power_charge_max_kwac": 312.64143749999996, - "batt_power_charge_max_kwdc": 300.13578, + "batt_power_charge_max_kwdc": 300.13577999999998, "batt_power_discharge_max_kwac": 288.1303487999999, - "batt_power_discharge_max_kwdc": 300.13578, + "batt_power_discharge_max_kwdc": 300.13577999999998, "batt_pv_ac_forecast": [ 0.0 ], @@ -28819,7 +28828,7 @@ "batt_ui_bank_voltage": 501.48, "batt_ui_cell_voltage": 3.98, "batt_ui_inverter_eff": 96.0, - "batt_ui_nominal_bank_power": 300.13578, + "batt_ui_nominal_bank_power": 300.13577999999998, "batt_unit_capacity": 400.0, "batt_unit_surface_area": 30.0, "batt_user_specified_weather_file_peak_shaving": "", @@ -28851,13 +28860,13 @@ 0.5 ] ], - "batt_volume": 14.64076975609756, - "battery_energy": 1200.54312, + "batt_volume": 14.640769756097559, + "battery_energy": 1200.5431199999999, "battery_indirect_cost_percent": 0.0, "battery_losses_shown": 0.0, "battery_per_kW": 667.0, "battery_per_kWh": 184.0, - "battery_power": 300.13578, + "battery_power": 300.13577999999998, "battery_thermal_shown": 0.0, "battery_total": 421090.49934, "battery_total_cost_lcos": 421090.49934, @@ -30212,7 +30221,7 @@ 65637.4, 62524.4, 75159.3, - 66769.6, + 66769.59999999999, 78419.4, 69738.1, 79130.4, @@ -30225,17 +30234,17 @@ 23783.9, 21382.1, 20961.0, - 26337.8, + 26337.800000000003, 42498.8, 44231.9, 50858.2, 50575.2, - 57217.4, + 57217.399999999994, 54770.0, 62565.5, 62546.6, 69027.3, - 64461.7, + 64461.69999999999, 71898.1, 68317.3, 74500.8, @@ -30253,7 +30262,7 @@ 155912.0, 130833.0, 132272.0, - 128764.0, + 128764.00000000002, 130137.0, 41616.6, 38936.2, @@ -30364,12 +30373,12 @@ 99832.0, 90010.5, 85697.8, - 85382.9, - 82611.6, + 85382.90000000001, + 82611.59999999999, 75291.2, - 50191.9, - 50711.4, - 57557.9, + 50191.899999999994, + 50711.399999999994, + 57557.899999999994, 74038.1, 33575.4, 33575.4, @@ -30408,7 +30417,7 @@ 38936.2, 41616.6, 157675.0, - 130223.0, + 130223.00000000002, 152852.0, 132786.0, 126285.0, @@ -30434,7 +30443,7 @@ 134520.0, 115363.0, 149152.0, - 129205.0, + 129205.00000000002, 121570.0, 121960.0, 125404.0, @@ -30493,7 +30502,7 @@ 124638.0, 94637.1, 97234.7, - 88933.1, + 88933.09999999999, 91846.3, 41616.6, 38936.2, @@ -30532,13 +30541,13 @@ 96210.0, 89250.9, 85544.6, - 85889.8, + 85889.79999999999, 84167.2, - 78445.4, + 78445.40000000001, 52949.5, 51678.4, 55887.7, - 71313.9, + 71313.90000000001, 33575.4, 33575.4, 33575.4, @@ -30701,7 +30710,7 @@ 98505.7, 91924.9, 91046.2, - 85477.9, + 85477.90000000001, 79458.4, 56576.4, 55824.3, @@ -30742,7 +30751,7 @@ 41792.1, 43477.7, 45228.7, - 47500.1, + 47500.100000000006, 172999.0, 141927.0, 162336.0, @@ -30781,7 +30790,7 @@ 122099.0, 90814.5, 93228.2, - 85575.6, + 85575.59999999999, 87925.9, 41616.6, 38936.2, @@ -30805,7 +30814,7 @@ 122218.0, 91146.9, 93502.0, - 86483.1, + 86483.09999999999, 89450.1, 41616.6, 38936.2, @@ -30854,7 +30863,7 @@ 90298.6, 92199.6, 83898.4, - 86446.7, + 86446.70000000001, 41616.6, 38936.2, 33575.4, @@ -30867,13 +30876,13 @@ 84471.8, 94076.0, 88073.8, - 80752.8, + 80752.79999999999, 83212.7, 82307.2, 77449.4, 52473.2, 52681.8, - 51462.9, + 51462.899999999994, 66957.9, 33575.4, 33575.4, @@ -30925,8 +30934,8 @@ 121954.0, 86707.6, 88599.8, - 79362.8, - 82089.3, + 79362.79999999999, + 82089.29999999999, 41616.6, 38936.2, 38936.2, @@ -31020,7 +31029,7 @@ 126843.0, 124682.0, 88513.2, - 86986.9, + 86986.90000000001, 77743.9, 81084.8, 41616.6, @@ -31036,11 +31045,11 @@ 92927.8, 91589.7, 87678.4, - 87836.2, - 85348.3, + 87836.20000000001, + 85348.29999999999, 82296.0, - 64172.3, - 66613.2, + 64172.30000000001, + 66613.20000000001, 68223.9, 80777.2, 33575.4, @@ -31082,7 +31091,7 @@ 149261.0, 123809.0, 147564.0, - 128823.0, + 128823.00000000002, 122579.0, 125586.0, 128886.0, @@ -31093,7 +31102,7 @@ 121551.0, 90239.1, 90854.0, - 82031.4, + 82031.40000000001, 85227.3, 41616.6, 38936.2, @@ -31114,11 +31123,11 @@ 134567.0, 133442.0, 133533.0, - 128937.0, + 128937.00000000002, 90182.6, 88579.6, 76377.0, - 76546.1, + 76546.09999999999, 41616.6, 38936.2, 38936.2, @@ -31128,7 +31137,7 @@ 38936.2, 41616.6, 68105.8, - 68996.8, + 68996.79999999999, 130897.0, 125398.0, 125853.0, @@ -31140,7 +31149,7 @@ 129218.0, 127428.0, 89081.7, - 85006.2, + 85006.20000000001, 70622.5, 70793.3, 41616.6, @@ -31151,7 +31160,7 @@ 38936.2, 38936.2, 41616.6, - 72207.4, + 72207.40000000001, 69731.5, 126489.0, 119797.0, @@ -31164,7 +31173,7 @@ 122950.0, 117617.0, 84562.9, - 86619.2, + 86619.20000000001, 78609.7, 81926.4, 41616.6, @@ -31189,7 +31198,7 @@ 118809.0, 91306.7, 93633.5, - 85924.4, + 85924.40000000001, 88787.8, 41616.6, 38936.2, @@ -31204,10 +31213,10 @@ 104526.0, 94995.2, 85698.6, - 85528.6, + 85528.59999999999, 82014.1, 75615.5, - 49681.4, + 49681.399999999994, 49085.0, 50838.1, 69418.3, @@ -31221,10 +31230,10 @@ 33575.4, 33575.4, 38437.1, - 41040.1, + 41040.100000000006, 40948.3, 38129.5, - 23750.8, + 23750.800000000003, 20299.9, 18771.4, 18771.4, @@ -31295,7 +31304,7 @@ 38936.2, 38936.2, 41616.6, - 81207.4, + 81207.40000000001, 82448.8, 130369.0, 117397.0, @@ -31320,7 +31329,7 @@ 38936.2, 41616.6, 73283.2, - 77828.9, + 77828.90000000001, 131034.0, 119115.0, 120381.0, @@ -31332,7 +31341,7 @@ 126347.0, 122171.0, 87738.4, - 85747.3, + 85747.29999999999, 72230.3, 73031.2, 41616.6, @@ -31345,7 +31354,7 @@ 41616.6, 64181.1, 69357.1, - 129610.0, + 129610.00000000002, 123291.0, 125708.0, 135655.0, @@ -31369,14 +31378,14 @@ 33575.4, 68789.0, 62839.1, - 76509.2, + 76509.20000000001, 70842.1, - 72522.6, + 72522.59999999999, 80693.9, 89368.4, 89959.5, 58670.3, - 56307.9, + 56307.899999999994, 54234.1, 53970.6, 33575.4, @@ -31439,7 +31448,7 @@ 38936.2, 38936.2, 41616.6, - 85007.4, + 85007.40000000001, 81872.4, 128434.0, 119469.0, @@ -31454,7 +31463,7 @@ 84647.7, 85979.1, 76781.9, - 79581.9, + 79581.90000000001, 41616.6, 38936.2, 38936.2, @@ -31476,9 +31485,9 @@ 125737.0, 117521.0, 83519.5, - 83692.1, + 83692.09999999999, 74930.5, - 78331.4, + 78331.40000000001, 41616.6, 38936.2, 38936.2, @@ -31500,7 +31509,7 @@ 134676.0, 124996.0, 88148.3, - 82967.3, + 82967.29999999999, 69692.2, 72431.0, 41616.6, @@ -31539,10 +31548,10 @@ 50813.6, 70463.9, 75675.1, - 77855.9, + 77855.90000000001, 83533.3, 83345.5, - 79895.7, + 79895.70000000001, 50416.0, 47680.4, 45312.1, @@ -31583,9 +31592,9 @@ 38936.2, 38936.2, 41616.6, - 80966.1, - 78420.9, - 128068.0, + 80966.09999999999, + 78420.90000000001, + 128068.00000000002, 120228.0, 122232.0, 128351.0, @@ -31598,7 +31607,7 @@ 89708.0, 85696.8, 69935.2, - 69268.9, + 69268.90000000001, 41616.6, 38936.2, 38936.2, @@ -31609,7 +31618,7 @@ 41616.6, 65827.9, 68543.0, - 128276.0, + 128276.00000000002, 123124.0, 127450.0, 137010.0, @@ -31645,7 +31654,7 @@ 113931.0, 83557.8, 83293.8, - 71968.9, + 71968.90000000001, 74350.5, 41616.6, 38936.2, @@ -31656,7 +31665,7 @@ 38936.2, 41616.6, 80305.0, - 78678.7, + 78678.70000000001, 128767.0, 117487.0, 119011.0, @@ -31670,7 +31679,7 @@ 82913.2, 82535.5, 72246.3, - 75340.9, + 75340.90000000001, 41616.6, 38936.2, 38936.2, @@ -31679,7 +31688,7 @@ 38936.2, 38936.2, 41616.6, - 78056.7, + 78056.70000000001, 86869.0, 135769.0, 121407.0, @@ -31691,10 +31700,10 @@ 116419.0, 119312.0, 117314.0, - 89349.6, + 89349.59999999999, 88804.8, 78584.5, - 80379.9, + 80379.90000000001, 41616.6, 38936.2, 33575.4, @@ -31703,7 +31712,7 @@ 33575.4, 33575.4, 33575.4, - 80900.4, + 80900.40000000001, 68196.1, 77020.3, 78022.5, @@ -31764,7 +31773,7 @@ 123318.0, 114867.0, 86130.6, - 84017.8, + 84017.79999999999, 73462.2, 76872.0, 41616.6, @@ -31781,13 +31790,13 @@ 119550.0, 120943.0, 126516.0, - 129961.0, + 129961.00000000002, 135918.0, 133583.0, 133788.0, 132953.0, 120288.0, - 88324.3, + 88324.29999999999, 84177.7, 69665.5, 70773.4, @@ -31812,7 +31821,7 @@ 142052.0, 131520.0, 95680.0, - 88797.8, + 88797.79999999999, 71628.4, 70003.8, 41616.6, @@ -31825,7 +31834,7 @@ 41616.6, 54033.8, 66737.7, - 129097.0, + 129097.00000000002, 127287.0, 130950.0, 142693.0, @@ -31876,9 +31885,9 @@ 73337.1, 76981.3, 78842.1, - 85494.3, + 85494.29999999999, 87396.5, - 84744.2, + 84744.20000000001, 53898.6, 49861.0, 47676.8, @@ -31918,8 +31927,8 @@ 38936.2, 38936.2, 41616.6, - 77928.3, - 79855.1, + 77928.29999999999, + 79855.09999999999, 134102.0, 121489.0, 117108.0, @@ -31966,8 +31975,8 @@ 38936.2, 38936.2, 41616.6, - 87767.7, - 82336.2, + 87767.70000000001, + 82336.20000000001, 131651.0, 118206.0, 118501.0, @@ -31978,7 +31987,7 @@ 132713.0, 136447.0, 124041.0, - 87194.4, + 87194.40000000001, 91228.2, 73028.7, 71596.2, @@ -32005,7 +32014,7 @@ 93519.2, 94332.6, 73132.3, - 68822.9, + 68822.90000000001, 41616.6, 38936.2, 38936.2, @@ -32049,7 +32058,7 @@ 66098.4, 65012.5, 64738.7, - 55307.9, + 55307.899999999994, 26732.3, 33575.4, 33575.4, @@ -32073,7 +32082,7 @@ 42070.1, 38140.7, 44411.5, - 39742.6, + 39742.600000000006, 34316.8, 33575.4, 33575.4, @@ -32087,7 +32096,7 @@ 38936.2, 41616.6, 56429.1, - 62952.4, + 62952.399999999994, 130125.0, 128084.0, 132488.0, @@ -32138,7 +32147,7 @@ 63819.0, 135209.0, 128197.0, - 128413.0, + 128413.00000000002, 134494.0, 134603.0, 144112.0, @@ -32184,7 +32193,7 @@ 41616.6, 79893.7, 77574.4, - 130240.0, + 130240.00000000002, 116980.0, 114939.0, 119615.0, @@ -32206,14 +32215,14 @@ 33575.4, 33575.4, 33575.4, - 61883.9, + 61883.899999999994, 54359.7, 70912.3, 72644.2, 74528.9, 78955.8, - 79704.1, - 80250.2, + 79704.09999999999, + 80250.20000000001, 52361.0, 52024.2, 51074.0, @@ -32241,7 +32250,7 @@ 22390.6, 23276.5, 30670.5, - 32223.2, + 32223.199999999997, 23425.1, 33575.4, 33575.4, @@ -32254,8 +32263,8 @@ 38936.2, 38936.2, 41616.6, - 74337.9, - 76769.6, + 74337.90000000001, + 76769.59999999999, 128834.0, 122656.0, 124814.0, @@ -32265,8 +32274,8 @@ 140479.0, 141374.0, 143878.0, - 129222.0, - 86564.1, + 129222.00000000002, + 86564.09999999999, 91830.2, 73820.3, 72207.9, @@ -32302,7 +32311,7 @@ 38936.2, 38936.2, 41616.6, - 73440.7, + 73440.70000000001, 75499.7, 128957.0, 116648.0, @@ -32316,8 +32325,8 @@ 118756.0, 75932.2, 85961.9, - 68411.9, - 68475.1, + 68411.90000000001, + 68475.09999999999, 41616.6, 38936.2, 38936.2, @@ -32350,8 +32359,8 @@ 38936.2, 38936.2, 41616.6, - 57523.9, - 64206.5, + 57523.899999999994, + 64206.50000000001, 126383.0, 121758.0, 125553.0, @@ -32364,8 +32373,8 @@ 148948.0, 99181.9, 102062.0, - 77883.7, - 74635.1, + 77883.70000000001, + 74635.09999999999, 41616.6, 38936.2, 38936.2, @@ -32377,12 +32386,12 @@ 48477.3, 46403.8, 73858.7, - 81944.9, + 81944.90000000001, 86709.1, 93995.1, 97826.7, 99695.9, - 71279.7, + 71279.70000000001, 70894.8, 73226.4, 62713.4, @@ -32409,7 +32418,7 @@ 40220.0, 45099.1, 44128.4, - 45590.9, + 45590.899999999994, 37870.0, 38250.7, 33575.4, @@ -32590,7 +32599,7 @@ 38936.2, 38936.2, 41616.6, - 48182.9, + 48182.899999999994, 63271.3, 134211.0, 130156.0, @@ -32605,7 +32614,7 @@ 99254.0, 102567.0, 82472.9, - 77422.7, + 77422.70000000001, 41616.6, 38936.2, 38936.2, @@ -32615,7 +32624,7 @@ 38936.2, 41616.6, 42152.8, - 61638.4, + 61638.399999999994, 136060.0, 132857.0, 134569.0, @@ -32639,7 +32648,7 @@ 38936.2, 41616.6, 48038.9, - 64836.6, + 64836.600000000006, 141346.0, 139321.0, 144299.0, @@ -32716,10 +32725,10 @@ 72362.4, 75532.1, 80053.6, - 78729.2, + 78729.20000000001, 77216.7, 48656.7, - 46940.4, + 46940.399999999994, 45868.0, 36265.5, 22222.6, @@ -32743,7 +32752,7 @@ 18771.4, 18771.4, 18771.4, - 26540.2, + 26540.199999999997, 37443.3, 32916.9, 30493.1, @@ -32771,9 +32780,9 @@ 127929.0, 113915.0, 71349.5, - 78919.8, - 65729.2, - 67915.4, + 78919.79999999999, + 65729.20000000001, + 67915.40000000001, 41616.6, 38936.2, 38936.2, @@ -32794,9 +32803,9 @@ 125623.0, 126897.0, 112548.0, - 70758.8, - 77766.6, - 66619.2, + 70758.79999999999, + 77766.59999999999, + 66619.20000000001, 69453.2, 41616.6, 38936.2, @@ -32818,9 +32827,9 @@ 120914.0, 123746.0, 113029.0, - 73983.4, + 73983.40000000001, 81908.2, - 67370.4, + 67370.40000000001, 67723.5, 41616.6, 38936.2, @@ -32831,7 +32840,7 @@ 38936.2, 41616.6, 61363.8, - 70260.4, + 70260.40000000001, 126562.0, 118576.0, 118586.0, @@ -32842,7 +32851,7 @@ 134266.0, 140869.0, 128786.0, - 84772.9, + 84772.90000000001, 89890.0, 73765.1, 71064.6, @@ -32867,7 +32876,7 @@ 155382.0, 141624.0, 91461.4, - 88460.1, + 88460.09999999999, 70417.8, 69379.7, 41616.6, @@ -32879,10 +32888,10 @@ 33575.4, 33575.4, 46084.2, - 46087.9, + 46087.899999999994, 74048.7, - 82755.8, - 84313.9, + 82755.79999999999, + 84313.90000000001, 91813.5, 95159.1, 94153.9, @@ -32905,7 +32914,7 @@ 21238.7, 19076.5, 27158.3, - 32991.7, + 32991.700000000004, 34303.2, 28756.3, 20489.6, @@ -32940,7 +32949,7 @@ 122496.0, 83395.1, 89185.1, - 76196.7, + 76196.70000000001, 75572.5, 41616.6, 38936.2, @@ -32980,15 +32989,15 @@ 122621.0, 123305.0, 126911.0, - 128550.0, + 128550.00000000002, 134286.0, 130593.0, - 130716.0, + 130716.00000000002, 132876.0, 117576.0, - 74465.9, + 74465.90000000001, 78680.8, - 66881.2, + 66881.20000000001, 65934.4, 41616.6, 38936.2, @@ -33006,11 +33015,11 @@ 124942.0, 127830.0, 132310.0, - 129663.0, + 129663.00000000002, 131354.0, 136478.0, 122485.0, - 77710.1, + 77710.09999999999, 81027.6, 67482.4, 66054.7, @@ -33022,7 +33031,7 @@ 38936.2, 38936.2, 41616.6, - 48342.4, + 48342.399999999994, 64475.3, 124595.0, 117906.0, @@ -33048,9 +33057,9 @@ 33575.4, 37573.6, 43893.9, - 71650.6, + 71650.59999999999, 76011.0, - 79239.1, + 79239.09999999999, 85990.4, 88189.2, 89512.3, @@ -33130,7 +33139,7 @@ 152682.0, 152739.0, 133288.0, - 82212.6, + 82212.59999999999, 83780.3, 70744.6, 68483.7, @@ -33148,9 +33157,9 @@ 121924.0, 121913.0, 126770.0, - 128229.0, + 128229.00000000002, 132896.0, - 130550.0, + 130550.00000000002, 131374.0, 136072.0, 122141.0, @@ -33167,7 +33176,7 @@ 38936.2, 39149.3, 39534.0, - 60008.9, + 60008.899999999994, 126871.0, 119838.0, 120580.0, @@ -33178,7 +33187,7 @@ 145869.0, 152216.0, 136241.0, - 86606.1, + 86606.09999999999, 87590.8, 72214.9, 68907.6, @@ -33192,9 +33201,9 @@ 39149.3, 39618.0, 60232.8, - 128616.0, + 128616.00000000002, 125855.0, - 130205.0, + 130205.00000000002, 137279.0, 140820.0, 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30029.699999999997, 33116.9, 26219.7, 22010.4, @@ -33435,7 +33444,7 @@ 127954.0, 122102.0, 123479.0, - 128871.0, + 128871.00000000002, 131774.0, 140554.0, 140774.0, @@ -33445,7 +33454,7 @@ 97325.8, 92128.9, 75185.3, - 70433.6, + 70433.59999999999, 41616.6, 38936.2, 38936.2, @@ -33517,7 +33526,7 @@ 118414.0, 107539.0, 90920.5, - 86126.4, + 86126.40000000001, 41616.6, 38936.2, 38936.2, @@ -33540,7 +33549,7 @@ 164107.0, 111132.0, 105028.0, - 88013.6, + 88013.59999999999, 81831.0, 41616.6, 38936.2, @@ -33552,13 +33561,13 @@ 28640.7, 38011.3, 47846.0, - 77663.8, + 77663.79999999999, 82810.1, 85402.4, 90629.2, 92601.3, 94070.8, - 67945.4, + 67945.40000000001, 71132.3, 73141.2, 62817.7, @@ -33577,12 +33586,12 @@ 18771.4, 22482.0, 28505.1, - 32017.0, + 32017.000000000004, 31577.5, 26977.6, 24338.8, 27726.0, - 33136.2, + 33136.200000000004, 41692.0, 44982.4, 43355.0, @@ -33598,7 +33607,7 @@ 38936.2, 38936.2, 36681.9, - 37747.1, + 37747.100000000006, 62486.4, 136434.0, 132212.0, @@ -33613,7 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@@ 48593.0, 40982.7, 33575.4, - 37872.1, + 37872.100000000006, 33575.4, 42366.0, 38936.2, @@ -34295,7 +34304,7 @@ 38936.2, 34214.6, 53292.6, - 76192.1, + 76192.09999999999, 162199.0, 159538.0, 162493.0, @@ -34397,7 +34406,7 @@ 114540.0, 122832.0, 127042.0, - 128877.0, + 128877.00000000002, 99644.0, 102101.0, 104116.0, @@ -34434,11 +34443,11 @@ 44917.1, 40510.0, 44860.3, - 43790.1, + 43790.100000000006, 42228.2, 42091.8, 37953.2, - 59860.1, + 59860.100000000006, 83822.3, 173585.0, 174439.0, @@ -34455,10 +34464,10 @@ 121690.0, 107725.0, 50713.2, - 49004.4, + 49004.399999999994, 43215.3, 43317.3, - 41622.1, + 41622.100000000006, 40257.1, 42665.7, 34214.6, @@ -34480,7 +34489,7 @@ 103002.0, 47127.3, 48580.0, - 43778.4, + 43778.399999999994, 44595.0, 44043.5, 38936.2, @@ -34511,7 +34520,7 @@ 38936.2, 36681.9, 49589.2, - 76295.9, + 76295.90000000001, 166449.0, 164986.0, 168561.0, @@ -34566,10 +34575,10 @@ 102142.0, 106066.0, 110269.0, - 83596.4, + 83596.40000000001, 88216.5, 92157.7, - 83665.4, + 83665.40000000001, 48435.6, 47031.0, 59429.7, @@ -34583,15 +34592,15 @@ 33575.4, 28640.7, 24512.3, - 35366.1, + 35366.100000000006, 37297.5, 40195.4, 39590.6, 42690.3, 40911.6, - 41474.6, + 41474.600000000006, 46934.8, - 50197.9, + 50197.899999999994, 53283.5, 54897.5, 55734.0, @@ -34627,7 +34636,7 @@ 43548.4, 36595.9, 35072.6, - 35009.7, + 35009.700000000004, 36412.8, 28640.7, 31902.5, @@ -34639,9 +34648,9 @@ 48860.8, 54553.3, 55134.6, - 60052.1, + 60052.100000000006, 55005.2, - 58535.6, + 58535.600000000006, 57210.7, 58006.2, 62301.8, @@ -34655,7 +34664,7 @@ 43984.7, 41371.4, 61914.0, - 86946.7, + 86946.70000000001, 181086.0, 181449.0, 187562.0, @@ -34668,7 +34677,7 @@ 237092.0, 178633.0, 160063.0, - 129085.0, + 129085.00000000002, 120251.0, 55381.7, 56595.0, @@ -34679,7 +34688,7 @@ 43377.8, 39454.5, 59372.3, - 84690.7, + 84690.70000000001, 180423.0, 180836.0, 186225.0, @@ -34698,12 +34707,12 @@ 57505.3, 50634.3, 49176.8, - 44499.9, + 44499.899999999994, 44399.9, 44392.7, 42877.8, 61413.9, - 86759.9, + 86759.90000000001, 186891.0, 190837.0, 198747.0, @@ -34731,7 +34740,7 @@ 99375.9, 111364.0, 120912.0, - 129247.0, + 129247.00000000002, 133878.0, 135635.0, 106555.0, @@ -34740,8 +34749,8 @@ 104461.0, 50562.2, 47998.5, - 60851.1, - 54662.1, + 60851.100000000006, + 54662.100000000006, 49830.8, 46546.6, 46981.0, @@ -34750,20 +34759,20 @@ 39051.2, 37072.2, 31226.5, - 33383.9, + 33383.899999999994, 38638.2, 43888.9, 43707.1, 48372.9, 47561.9, - 51602.6, + 51602.600000000006, 50188.4, 54905.1, 53373.5, 58458.6, 53827.7, 54709.8, - 50053.6, + 50053.600000000006, 59649.0, 48638.9, 48627.8, @@ -34838,7 +34847,7 @@ 133809.0, 111991.0, 101711.0, - 46342.4, + 46342.399999999994, 47284.9, 43470.6, 43822.5, @@ -34912,10 +34921,10 @@ 48392.7, 42806.0, 43741.9, - 37187.6, + 37187.600000000006, 35326.6, - 37129.6, - 35290.8, + 37129.600000000006, + 35290.799999999996, 33575.4, 28640.7, 27544.1, @@ -34967,7 +34976,7 @@ 40224.8, 39149.3, 53128.0, - 77252.8, + 77252.79999999999, 169719.0, 169251.0, 173099.0, @@ -35038,7 +35047,7 @@ 48440.3, 44376.0, 40901.1, - 65242.1, + 65242.09999999999, 91892.5, 189946.0, 191572.0, @@ -35061,21 +35070,21 @@ 39916.4, 38909.8, 33575.4, - 32777.8, + 32777.799999999996, 61648.2, 65035.8, 99909.1, 111456.0, 120101.0, - 130216.0, + 130216.00000000002, 135280.0, 140580.0, 104011.0, - 88509.2, + 88509.20000000001, 83248.7, 73550.1, 42034.8, - 43465.9, + 43465.899999999994, 48809.9, 45493.5, 40366.0, @@ -35101,8 +35110,8 @@ 56008.7, 53986.7, 59768.4, - 55493.9, - 48264.9, + 55493.899999999994, + 48264.899999999994, 47056.5, 45929.0, 50834.8, @@ -35111,7 +35120,7 @@ 43418.0, 44603.2, 62498.2, - 85644.9, + 85644.90000000001, 179676.0, 180858.0, 186870.0, @@ -35131,7 +35140,7 @@ 45932.2, 45891.8, 42474.2, - 44111.6, + 44111.600000000006, 43868.6, 39149.3, 60422.3, @@ -35177,7 +35186,7 @@ 53145.4, 54322.6, 43603.0, - 44558.1, + 44558.100000000006, 43922.4, 43618.3, 40385.5, @@ -35207,7 +35216,7 @@ 38936.2, 43561.4, 58310.4, - 80007.4, + 80007.40000000001, 174458.0, 177339.0, 184796.0, @@ -35224,13 +35233,13 @@ 107272.0, 51331.5, 44657.0, - 42924.1, + 42924.100000000006, 39202.9, 33575.4, 38063.3, 33575.4, 31108.0, - 57211.4, + 57211.399999999994, 63663.9, 100045.0, 111288.0, @@ -35279,7 +35288,7 @@ 43547.0, 43416.7, 53673.9, - 75867.4, + 75867.40000000001, 166477.0, 166347.0, 170960.0, @@ -35297,7 +35306,7 @@ 46362.4, 47451.7, 44383.5, - 42501.4, + 42501.399999999994, 40660.3, 44090.5, 42343.2, @@ -35349,7 +35358,7 @@ 43597.6, 47871.6, 44311.4, - 45185.9, + 45185.899999999994, 64047.9, 86061.8, 180445.0, @@ -35390,15 +35399,15 @@ 146778.0, 124682.0, 116646.0, - 52686.1, - 55529.9, + 52686.100000000006, + 55529.899999999994, 48904.2, 44359.0, 40135.0, 37903.9, 37768.2, 35929.6, - 69891.1, + 69891.09999999999, 77826.3, 113315.0, 123156.0, @@ -35420,16 +35429,16 @@ 43673.2, 38606.5, 39515.3, - 35610.8, + 35610.799999999996, 37450.1, 35742.7, 44472.3, 43706.4, 47995.7, - 47916.6, + 47916.600000000006, 51403.0, 50586.1, - 54815.4, + 54815.399999999994, 54425.0, 59484.9, 60564.7, @@ -35446,7 +35455,7 @@ 52832.7, 44723.4, 51764.7, - 66318.7, + 66318.70000000001, 91784.8, 187270.0, 189457.0, @@ -35463,10 +35472,10 @@ 132854.0, 123499.0, 56457.1, - 64713.5, - 52546.1, + 64713.49999999999, + 52546.100000000006, 56647.2, - 51627.9, + 51627.899999999994, 51692.4, 49196.2, 55236.3, @@ -35488,7 +35497,7 @@ 122342.0, 58681.5, 61426.3, - 52145.9, + 52145.899999999994, 54116.3, 50622.7, 53012.3, @@ -35511,7 +35520,7 @@ 107001.0, 101285.0, 41616.6, - 45441.9, + 45441.899999999994, 45293.6, 38936.2, 44786.9, @@ -35542,7 +35551,7 @@ 44927.8, 41068.9, 45628.2, - 65379.5, + 65379.49999999999, 86717.4, 181402.0, 182158.0, @@ -35584,8 +35593,8 @@ 43441.7, 41687.7, 40651.1, - 37064.1, - 35259.7, + 37064.100000000006, + 35259.700000000004, 33575.4, 33575.4, 33575.4, @@ -35601,7 +35610,7 @@ 47784.2, 45923.4, 49392.8, - 46647.4, + 46647.399999999994, 46892.6, 48706.5, 50299.7, @@ -35639,7 +35648,7 @@ 38936.2, 41616.6, 58282.9, - 76042.9, + 76042.90000000001, 162779.0, 160460.0, 163822.0, @@ -35735,20 +35744,20 @@ 33575.4, 33575.4, 51680.4, - 53574.4, - 84900.6, + 53574.399999999994, + 84900.59999999999, 93693.5, 98711.1, 106331.0, 109715.0, 112617.0, - 84147.6, - 87781.6, + 84147.59999999999, + 87781.59999999999, 92687.6, 81194.1, 45728.0, 51917.1, - 48440.6, + 48440.600000000006, 40570.4, 37308.5, 35370.1, @@ -35767,7 +35776,7 @@ 45626.8, 45728.9, 49975.0, - 48790.1, + 48790.100000000006, 54003.9, 50786.4, 50820.7, @@ -35845,7 +35854,7 @@ 120526.0, 117332.0, 96596.3, - 89857.2, + 89857.20000000001, 41616.6, 38936.2, 38936.2, @@ -35854,7 +35863,7 @@ 38936.2, 38936.2, 41616.6, - 43185.9, + 43185.899999999994, 62798.7, 144703.0, 145544.0, @@ -35913,7 +35922,7 @@ 76168.9, 78559.1, 82778.5, - 71874.8, + 71874.79999999999, 43348.0, 47668.0, 38005.7, @@ -35993,7 +36002,7 @@ 53135.8, 47151.0, 47532.1, - 44434.4, + 44434.399999999994, 42279.7, 40617.2, 42072.0, @@ -36023,7 +36032,7 @@ 38936.2, 41616.6, 59920.8, - 75272.9, + 75272.90000000001, 163059.0, 162456.0, 167895.0, @@ -36112,15 +36121,15 @@ 46636.4, 45719.4, 45766.8, - 38480.6, + 38480.600000000006, 39246.5, 35552.6, - 37513.4, + 37513.399999999994, 33575.4, 39400.6, 24662.7, 40622.3, - 33067.8, + 33067.799999999996, 40980.3, 41290.2, 48213.7, @@ -36132,7 +36141,7 @@ 51769.6, 41390.1, 58478.0, - 47386.9, + 47386.899999999994, 47397.7, 44467.9, 39991.0, @@ -36191,7 +36200,7 @@ 38936.2, 41616.6, 51125.9, - 66294.8, + 66294.79999999999, 142839.0, 137140.0, 137998.0, @@ -36205,7 +36214,7 @@ 98179.8, 101503.0, 80446.1, - 77108.9, + 77108.90000000001, 41616.6, 38936.2, 38936.2, @@ -36229,7 +36238,7 @@ 106734.0, 111191.0, 89160.1, - 84260.6, + 84260.59999999999, 41616.6, 38936.2, 38936.2, @@ -36242,16 +36251,16 @@ 52167.2, 81718.0, 87139.9, - 88532.7, + 88532.70000000001, 93817.3, 97294.4, 100286.0, 72962.3, 74814.3, - 78235.3, + 78235.29999999999, 66702.7, 38557.5, - 44391.4, + 44391.399999999994, 33575.4, 33575.4, 33575.4, @@ -36325,7 +36334,7 @@ 107204.0, 108056.0, 87231.4, - 85036.9, + 85036.90000000001, 41616.6, 38936.2, 38936.2, @@ -36359,7 +36368,7 @@ 38936.2, 41616.6, 58535.3, - 70519.6, + 70519.59999999999, 147227.0, 142922.0, 146641.0, @@ -36407,7 +36416,7 @@ 33575.4, 33575.4, 50016.7, - 48881.1, + 48881.100000000006, 79475.0, 87099.5, 91237.1, @@ -36416,7 +36425,7 @@ 99896.1, 70930.9, 71389.6, - 73192.4, + 73192.40000000001, 62919.5, 41602.3, 41555.5, @@ -36436,7 +36445,7 @@ 36988.9, 42314.7, 36809.8, - 43401.9, + 43401.899999999994, 38870.7, 44157.5, 38892.5, @@ -36479,7 +36488,7 @@ 38936.2, 41616.6, 44353.3, - 59370.4, + 59370.399999999994, 131800.0, 126771.0, 129179.0, @@ -36493,7 +36502,7 @@ 89496.0, 91208.2, 71608.8, - 68237.1, + 68237.09999999999, 41616.6, 38936.2, 38936.2, @@ -36564,7 +36573,7 @@ 165890.0, 111399.0, 110720.0, - 88585.1, + 88585.09999999999, 83127.0, 41616.6, 38936.2, @@ -36682,7 +36691,7 @@ 207821.0, 212641.0, 188503.0, - 129776.0, + 129776.00000000002, 123196.0, 99019.0, 94695.6, @@ -36716,7 +36725,7 @@ 42205.3, 38936.2, 38936.2, - 43373.4, + 43373.399999999994, 41616.6, 65206.7, 73657.3, @@ -36758,7 +36767,7 @@ 47543.6, 40322.7, 39640.0, - 37433.1, + 37433.100000000006, 33575.4, 33575.4, 33575.4, @@ -36774,7 +36783,7 @@ 38786.8, 37496.1, 44248.2, - 39803.6, + 39803.600000000006, 45559.3, 40309.7, 45334.4, @@ -36838,8 +36847,8 @@ 38936.2, 38936.2, 41616.6, - 53441.9, - 64330.7, + 53441.899999999994, + 64330.69999999999, 141258.0, 139920.0, 148044.0, @@ -36938,12 +36947,12 @@ 18771.4, 19707.6, 31681.0, - 32204.7, + 32204.700000000004, 38485.0, - 33066.2, + 33066.200000000004, 42186.7, 38238.7, - 43480.6, + 43480.600000000006, 38776.8, 36790.3, 38519.8, @@ -36969,7 +36978,7 @@ 41921.2, 40987.3, 43190.2, - 41236.6, + 41236.600000000006, 44393.9, 33575.4, 33575.4, @@ -37009,7 +37018,7 @@ 49647.5, 57984.8, 130439.0, - 130532.0, + 130532.00000000002, 139786.0, 151225.0, 155046.0, @@ -37033,7 +37042,7 @@ 48785.2, 57546.3, 129876.0, - 129889.0, + 129889.00000000002, 139373.0, 150596.0, 152793.0, @@ -37045,7 +37054,7 @@ 109037.0, 101341.0, 78849.5, - 72975.1, + 72975.09999999999, 41616.6, 38936.2, 38936.2, @@ -37081,7 +37090,7 @@ 50737.6, 42685.7, 70633.9, - 78982.3, + 78982.29999999999, 85316.8, 94362.1, 98935.8, @@ -37115,7 +37124,7 @@ 46738.8, 43405.6, 39671.7, - 37087.9, + 37087.899999999994, 33575.4, 33575.4, 33575.4, @@ -37128,7 +37137,7 @@ 41616.6, 49465.7, 58090.3, - 130288.0, + 130288.00000000002, 131094.0, 141773.0, 153251.0, @@ -37141,7 +37150,7 @@ 113493.0, 105281.0, 83841.0, - 78894.4, + 78894.40000000001, 41616.6, 38936.2, 38936.2, @@ -37199,7 +37208,7 @@ 38936.2, 41616.6, 51165.8, - 59872.1, + 59872.100000000006, 133158.0, 132570.0, 140109.0, @@ -37223,7 +37232,7 @@ 38936.2, 41616.6, 52263.9, - 57544.6, + 57544.600000000006, 126422.0, 124585.0, 129688.0, @@ -37237,7 +37246,7 @@ 103331.0, 98223.5, 80166.9, - 77308.6, + 77308.59999999999, 41616.6, 38936.2, 38936.2, @@ -37281,7 +37290,7 @@ 37252.7, 38920.3, 36720.7, - 32225.5, + 32225.499999999996, 33575.4, 33575.4, 33575.4, @@ -37342,8 +37351,8 @@ 38936.2, 38936.2, 41616.6, - 53455.4, - 58057.9, + 53455.399999999994, + 58057.899999999994, 128346.0, 126164.0, 132655.0, @@ -37392,7 +37401,7 @@ 41616.6, 52056.9, 58486.5, - 128073.0, + 128073.00000000002, 122333.0, 124240.0, 132600.0, @@ -37421,10 +37430,10 @@ 66225.2, 70535.1, 72190.0, - 71877.7, + 71877.70000000001, 44880.2, 44910.3, - 46794.6, + 46794.600000000006, 43770.3, 33575.4, 33575.4, @@ -37486,7 +37495,7 @@ 38936.2, 38936.2, 41616.6, - 67010.1, + 67010.09999999999, 74731.8, 127005.0, 116056.0, @@ -37521,7 +37530,7 @@ 138742.0, 140214.0, 144989.0, - 129032.0, + 129032.00000000002, 93989.9, 86920.2, 69142.9, @@ -37535,7 +37544,7 @@ 38936.2, 41616.6, 68174.5, - 72268.9, + 72268.90000000001, 125993.0, 119515.0, 122365.0, @@ -37547,7 +37556,7 @@ 152423.0, 136822.0, 97038.8, - 89089.3, + 89089.29999999999, 70572.0, 68668.5, 41616.6, @@ -37558,12 +37567,12 @@ 38936.2, 38936.2, 41616.6, - 66238.3, + 66238.29999999999, 71469.9, 125446.0, 118764.0, 122007.0, - 130454.0, + 130454.00000000002, 136884.0, 146980.0, 147343.0, @@ -37573,7 +37582,7 @@ 100288.0, 90647.3, 71618.6, - 69267.8, + 69267.79999999999, 41616.6, 38936.2, 38936.2, @@ -37586,10 +37595,10 @@ 52492.4, 67725.6, 73481.9, - 78870.1, + 78870.09999999999, 86788.9, - 88872.2, - 89352.4, + 88872.20000000001, + 89352.40000000001, 60313.7, 57995.5, 58132.2, @@ -37631,7 +37640,7 @@ 38936.2, 38936.2, 41616.6, - 72309.7, + 72309.70000000001, 76839.1, 127519.0, 117105.0, @@ -37655,8 +37664,8 @@ 38936.2, 38936.2, 41616.6, - 71191.6, - 72631.2, + 71191.59999999999, + 72631.20000000001, 127732.0, 119847.0, 120590.0, @@ -37667,7 +37676,7 @@ 129346.0, 133731.0, 128183.0, - 87297.7, + 87297.70000000001, 85286.1, 71830.5, 72339.7, @@ -37692,7 +37701,7 @@ 132177.0, 125930.0, 84578.2, - 82387.9, + 82387.90000000001, 70589.1, 73020.4, 41616.6, @@ -37705,7 +37714,7 @@ 41616.6, 78002.1, 76391.3, - 129366.0, + 129366.00000000002, 118233.0, 116262.0, 120445.0, @@ -37729,7 +37738,7 @@ 41616.6, 91059.7, 82484.2, - 130491.0, + 130491.00000000002, 118391.0, 116901.0, 121006.0, @@ -37742,7 +37751,7 @@ 88246.6, 86774.6, 76974.8, - 79388.4, + 79388.40000000001, 41616.6, 38936.2, 33575.4, @@ -37782,7 +37791,7 @@ 18771.4, 25547.7, 31082.3, - 32282.8, + 32282.800000000003, 32955.3, 22672.6, 23706.0, @@ -37813,7 +37822,7 @@ 130147.0, 92365.1, 88647.5, - 76427.6, + 76427.59999999999, 79706.2, 41616.6, 38936.2, @@ -37835,7 +37844,7 @@ 135191.0, 140948.0, 131720.0, - 89718.4, + 89718.40000000001, 86822.2, 72405.3, 72256.5, @@ -37847,7 +37856,7 @@ 38936.2, 38936.2, 41616.6, - 66448.1, + 66448.09999999999, 72459.2, 126736.0, 119181.0, @@ -37862,7 +37871,7 @@ 88163.2, 83969.4, 69513.0, - 70733.1, + 70733.09999999999, 41616.6, 38936.2, 38936.2, @@ -37886,7 +37895,7 @@ 89198.7, 83686.9, 68872.5, - 68938.9, + 68938.90000000001, 41616.6, 38936.2, 38936.2, @@ -37948,7 +37957,7 @@ 18771.4, 18771.4, 19428.9, - 21009.7, + 21009.699999999997, 24421.5, 22519.2, 19741.5, @@ -38003,7 +38012,7 @@ 118838.0, 127342.0, 122209.0, - 89827.2, + 89827.20000000001, 90540.0, 81046.3, 82603.7, @@ -38029,7 +38038,7 @@ 134495.0, 97366.5, 93661.4, - 78890.9, + 78890.90000000001, 77829.5, 41616.6, 38936.2, @@ -38069,14 +38078,14 @@ 119266.0, 119426.0, 125485.0, - 130360.0, + 130360.00000000002, 135432.0, 133502.0, 135116.0, 139853.0, 129065.0, 87419.1, - 84551.9, + 84551.90000000001, 72868.5, 75598.8, 41616.6, @@ -38090,14 +38099,14 @@ 83190.0, 61562.3, 73689.5, - 74933.6, + 74933.59999999999, 77329.7, 84530.3, - 87644.6, + 87644.59999999999, 86123.7, 58597.4, 56650.8, - 61802.1, + 61802.100000000006, 61218.9, 33575.4, 33575.4, @@ -38116,7 +38125,7 @@ 18771.4, 18771.4, 24712.6, - 33485.7, + 33485.700000000004, 36927.8, 36282.3, 37830.0, @@ -38160,7 +38169,7 @@ 38936.2, 41616.6, 70202.5, - 73477.4, + 73477.40000000001, 126911.0, 119793.0, 122315.0, @@ -38174,7 +38183,7 @@ 86658.3, 83496.2, 70084.1, - 72325.6, + 72325.59999999999, 41616.6, 38936.2, 38936.2, @@ -38183,7 +38192,7 @@ 38936.2, 38936.2, 41616.6, - 77681.7, + 77681.70000000001, 73769.3, 128025.0, 117855.0, @@ -38258,7 +38267,7 @@ 126462.0, 96049.2, 93885.6, - 88225.1, + 88225.09999999999, 84725.4, 84528.9, 80815.4, @@ -38279,7 +38288,7 @@ 33575.4, 34767.8, 39739.2, - 34045.2, + 34045.200000000004, 22739.4, 18771.4, 18771.4, @@ -38428,8 +38437,8 @@ 81126.3, 78662.7, 76533.2, - 80147.9, - 78534.6, + 80147.90000000001, + 78534.59999999999, 73135.7, 50027.3, 48809.7, @@ -38485,7 +38494,7 @@ 123959.0, 90021.8, 91303.8, - 82288.8, + 82288.79999999999, 84619.1, 41616.6, 38936.2, @@ -38508,9 +38517,9 @@ 131187.0, 122747.0, 86237.9, - 87087.9, + 87087.90000000001, 77886.6, - 80611.9, + 80611.90000000001, 41616.6, 38936.2, 38936.2, @@ -38533,8 +38542,8 @@ 122206.0, 85141.3, 85429.4, - 75537.6, - 78245.1, + 75537.59999999999, + 78245.09999999999, 41616.6, 38936.2, 38936.2, @@ -38544,7 +38553,7 @@ 38936.2, 41616.6, 90687.4, - 81240.1, + 81240.09999999999, 129486.0, 118235.0, 118087.0, @@ -38555,7 +38564,7 @@ 127440.0, 131252.0, 122608.0, - 85210.4, + 85210.40000000001, 85610.5, 75216.4, 78282.2, @@ -38574,14 +38583,14 @@ 117865.0, 124541.0, 127485.0, - 130294.0, + 130294.00000000002, 126595.0, 124660.0, 128393.0, 119990.0, 86449.5, 87462.7, - 77464.3, + 77464.29999999999, 80062.0, 41616.6, 38936.2, @@ -38598,11 +38607,11 @@ 77732.8, 80911.4, 79811.6, - 74811.1, + 74811.09999999999, 47912.8, 49054.5, - 58614.6, - 65977.4, + 58614.600000000006, + 65977.40000000001, 33575.4, 33575.4, 33575.4, @@ -38649,7 +38658,7 @@ 129249.0, 125114.0, 124165.0, - 130740.0, + 130740.00000000002, 125235.0, 94260.5, 97233.0, @@ -38677,7 +38686,7 @@ 123003.0, 92340.2, 93315.7, - 85147.1, + 85147.09999999999, 88102.8, 41616.6, 38936.2, @@ -38697,10 +38706,10 @@ 127790.0, 125056.0, 123622.0, - 128198.0, + 128198.00000000002, 121315.0, 87611.7, - 87813.9, + 87813.90000000001, 78008.4, 80928.9, 41616.6, @@ -38712,8 +38721,8 @@ 38936.2, 41616.6, 91359.1, - 83843.9, - 129812.0, + 83843.90000000001, + 129812.00000000002, 120692.0, 122240.0, 126446.0, @@ -38736,8 +38745,8 @@ 38936.2, 41616.6, 90528.4, - 84346.4, - 130461.0, + 84346.40000000001, + 130461.00000000002, 118571.0, 115153.0, 116781.0, @@ -38858,14 +38867,14 @@ 139677.0, 124682.0, 152342.0, - 129812.0, + 129812.00000000002, 123939.0, 126263.0, 128578.0, 124587.0, 119881.0, 118743.0, - 128723.0, + 128723.00000000002, 128170.0, 96893.7, 96691.1, @@ -38931,14 +38940,14 @@ 86242.8, 87018.4, 83278.0, - 81057.6, + 81057.59999999999, 82418.9, 78413.3, 71216.9, 51699.0, - 52479.1, - 64601.6, - 75829.1, + 52479.100000000006, + 64601.600000000006, + 75829.09999999999, 33575.4, 33575.4, 33575.4, @@ -38985,7 +38994,7 @@ "om_batt_fixed_cost": [ 0.0 ], - "om_batt_nameplate": 1200.54312, + "om_batt_nameplate": 1200.5431199999999, "om_batt_replacement_cost": [ 280.0 ], @@ -39057,7 +39066,7 @@ "ui_step_minutes": 60.0 }, "Hybrid": { - "ac_nameplate": 469.565, + "ac_nameplate": 469.5652173913044, "analysis_period": 25.0, "analysis_period_warning": "", "annual_crit": 0.0, @@ -39093,7 +39102,7 @@ "cbi_uti_tax_fed": 1.0, "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, - "const_per_interest1": 2208730.901314276, + "const_per_interest1": 2208730.9079273187, "const_per_interest2": 0.0, "const_per_interest3": 0.0, "const_per_interest4": 0.0, @@ -39103,7 +39112,7 @@ "const_per_interest_rate3": 0.0, "const_per_interest_rate4": 0.0, "const_per_interest_rate5": 0.0, - "const_per_interest_total": 2208730.901314276, + "const_per_interest_total": 2208730.9079273187, "const_per_months1": 6.0, "const_per_months2": 0.0, "const_per_months3": 0.0, @@ -39120,13 +39129,13 @@ "const_per_percent4": 0.0, "const_per_percent5": 0.0, "const_per_percent_total": 100.0, - "const_per_principal1": 135921901.61934, + "const_per_principal1": 135921902.02629654, "const_per_principal2": 0.0, "const_per_principal3": 0.0, "const_per_principal4": 0.0, "const_per_principal5": 0.0, - "const_per_principal_total": 135921901.61934, - "const_per_total1": 3567949.9175076757, + "const_per_principal_total": 135921902.02629654, + "const_per_total1": 3567949.9281902837, "const_per_total2": 0.0, "const_per_total3": 0.0, "const_per_total4": 0.0, @@ -39136,7 +39145,7 @@ "const_per_upfront_rate3": 0.0, "const_per_upfront_rate4": 0.0, "const_per_upfront_rate5": 0.0, - "construction_financing_cost": 3567949.9175076757, + "construction_financing_cost": 3567949.9281902837, "cost_debt_closing": 0.0, "cost_debt_fee": 2.75, "cost_other_financing": 0.0, @@ -56772,7 +56781,7 @@ "energy_2": 48557315.39999997, "energy_3": 55750082.00000006, "energy_4": 53014929.70000005, - "energy_5": 60460745.50000008, + "energy_5": 60460745.500000078, "energy_6": 70152338.50000005, "energy_7": 77708464.10000009, "energy_8": 77555051.10000016, @@ -65567,7 +65576,7 @@ "grid_outage": [ 0.0 ], - "host_nominal_discount_rate": 9.060000000000004, + "host_nominal_discount_rate": 9.060000000000003, "host_real_discount_rate": 6.4, "hybrid_capital_cost": 0.0, "ibi_fed_amount": 0.0, @@ -66294,14 +66303,14 @@ 37133.5, 28375.1, 27445.8, - 23783.9, - 21382.1, + 23783.899999999998, + 21382.100000000002, 20961.0, 26337.800000000003, 42498.8, 44231.9, 50858.2, - 50575.2, + 50575.200000000004, 57217.399999999994, 54770.0, 62565.5, @@ -66374,7 +66383,7 @@ 102110.0, 102849.0, 94759.5, - 97478.1, + 97478.09999999999, 41616.6, 38936.2, 38936.2, @@ -66397,7 +66406,7 @@ 134513.0, 105677.0, 104267.0, - 94631.9, + 94631.90000000001, 95954.7, 41616.6, 38936.2, @@ -66491,9 +66500,9 @@ 120048.0, 124656.0, 126200.0, - 96456.6, + 96456.59999999999, 98345.6, - 91510.9, + 91510.90000000001, 95960.0, 41616.6, 38936.2, @@ -66528,7 +66537,7 @@ 38936.2, 41616.6, 106737.0, - 94745.9, + 94745.90000000001, 132714.0, 123344.0, 123674.0, @@ -66540,7 +66549,7 @@ 122133.0, 122241.0, 90891.2, - 92178.3, + 92178.29999999999, 84163.9, 86747.6, 41616.6, @@ -66609,7 +66618,7 @@ 78445.40000000001, 52949.5, 51678.4, - 55887.7, + 55887.700000000004, 71313.90000000001, 33575.4, 33575.4, @@ -66709,8 +66718,8 @@ 129775.0, 101286.0, 103536.0, - 96574.3, - 99830.3, + 96574.29999999999, + 99830.29999999999, 41616.6, 38936.2, 38936.2, @@ -66732,8 +66741,8 @@ 120735.0, 126890.0, 97389.4, - 99745.4, - 92501.9, + 99745.40000000001, + 92501.90000000001, 96116.4, 41616.6, 38936.2, @@ -66744,7 +66753,7 @@ 38936.2, 41616.6, 144450.0, - 129516.0, + 129515.99999999999, 151284.0, 131085.0, 126278.0, @@ -66770,7 +66779,7 @@ 145870.0, 117274.0, 109549.0, - 98505.7, + 98505.70000000001, 91924.9, 91046.2, 85477.90000000001, @@ -66813,7 +66822,7 @@ 38936.2, 41792.1, 43477.7, - 45228.7, + 45228.700000000004, 47500.100000000006, 172999.0, 141927.0, @@ -66829,7 +66838,7 @@ 127575.0, 98183.5, 101311.0, - 94981.1, + 94981.09999999999, 98503.8, 41616.6, 38936.2, @@ -66875,7 +66884,7 @@ 119739.0, 119921.0, 122218.0, - 91146.9, + 91146.90000000001, 93502.0, 86483.09999999999, 89450.1, @@ -66900,7 +66909,7 @@ 120365.0, 121677.0, 89101.9, - 90398.8, + 90398.79999999999, 82472.6, 85608.7, 41616.6, @@ -66923,7 +66932,7 @@ 118020.0, 118961.0, 123149.0, - 90298.6, + 90298.59999999999, 92199.6, 83898.4, 86446.70000000001, @@ -67007,7 +67016,7 @@ 38936.2, 38936.2, 41616.6, - 99430.4, + 99430.40000000001, 94066.3, 140365.0, 121417.0, @@ -67044,7 +67053,7 @@ 119457.0, 119407.0, 88740.0, - 90196.7, + 90196.70000000001, 81925.6, 84228.6, 41616.6, @@ -67080,12 +67089,12 @@ 38936.2, 41616.6, 101853.0, - 92126.1, + 92126.09999999999, 133285.0, 120232.0, 117332.0, 123502.0, - 128510.0, + 128509.99999999999, 132090.0, 128274.0, 126301.0, @@ -67163,7 +67172,7 @@ 119962.0, 121280.0, 121551.0, - 90239.1, + 90239.09999999999, 90854.0, 82031.40000000001, 85227.3, @@ -67176,7 +67185,7 @@ 38936.2, 41616.6, 102751.0, - 92188.9, + 92188.90000000001, 131301.0, 121325.0, 124155.0, @@ -67187,7 +67196,7 @@ 133442.0, 133533.0, 128937.00000000002, - 90182.6, + 90182.59999999999, 88579.6, 76377.0, 76546.09999999999, @@ -67201,7 +67210,7 @@ 41616.6, 68105.8, 68996.79999999999, - 130897.0, + 130896.99999999999, 125398.0, 125853.0, 129808.0, @@ -67209,7 +67218,7 @@ 137547.0, 131545.0, 129309.0, - 129218.0, + 129217.99999999999, 127428.0, 89081.7, 85006.20000000001, @@ -67229,7 +67238,7 @@ 119797.0, 123214.0, 129632.0, - 130027.0, + 130026.99999999999, 128089.0, 121849.0, 121219.0, @@ -67259,7 +67268,7 @@ 112110.0, 115220.0, 118809.0, - 91306.7, + 91306.70000000001, 93633.5, 85924.40000000001, 88787.8, @@ -67272,7 +67281,7 @@ 33575.4, 33575.4, 120459.0, - 99685.9, + 99685.90000000001, 104526.0, 94995.2, 85698.6, @@ -67315,7 +67324,7 @@ 33575.4, 38936.2, 38936.2, - 44270.3, + 44270.299999999996, 43794.2, 46177.6, 47963.2, @@ -67334,7 +67343,7 @@ 93790.5, 96991.4, 90142.9, - 94050.3, + 94050.29999999999, 41616.6, 38936.2, 38936.2, @@ -67393,7 +67402,7 @@ 41616.6, 73283.2, 77828.90000000001, - 131034.0, + 131033.99999999999, 119115.0, 120381.0, 123198.0, @@ -67447,7 +67456,7 @@ 80693.9, 89368.4, 89959.5, - 58670.3, + 58670.299999999996, 56307.899999999994, 54234.1, 53970.6, @@ -67469,9 +67478,9 @@ 18771.4, 18771.4, 18771.4, - 21582.9, + 21582.899999999998, 29476.9, - 29431.1, + 29431.100000000002, 25239.0, 28127.1, 29535.5, @@ -67561,7 +67570,7 @@ 41616.6, 88325.5, 83861.3, - 130367.0, + 130366.99999999999, 118412.0, 118386.0, 124314.0, @@ -67585,10 +67594,10 @@ 41616.6, 80686.5, 78797.2, - 128897.0, + 128896.99999999999, 119916.0, 123694.0, - 130920.0, + 130919.99999999999, 132223.0, 138328.0, 134880.0, @@ -67637,7 +67646,7 @@ 18771.4, 18771.4, 18771.4, - 20895.4, + 20895.399999999998, 20492.6, 21116.1, 20731.7, @@ -67692,7 +67701,7 @@ 155723.0, 142307.0, 101580.0, - 94363.2, + 94363.20000000001, 77483.0, 74463.7, 41616.6, @@ -67825,7 +67834,7 @@ 41616.6, 90183.8, 84903.3, - 130385.0, + 130384.99999999999, 119919.0, 119306.0, 123454.0, @@ -67849,7 +67858,7 @@ 41616.6, 77391.5, 82324.0, - 128165.0, + 128164.99999999999, 119550.0, 120943.0, 126516.0, @@ -67899,7 +67908,7 @@ 66737.7, 129097.00000000002, 127287.0, - 130950.0, + 130949.99999999999, 142693.0, 144605.0, 149310.0, @@ -67908,7 +67917,7 @@ 146327.0, 134154.0, 100622.0, - 93409.1, + 93409.09999999999, 73763.5, 74493.6, 41616.6, @@ -67930,8 +67939,8 @@ 146380.0, 146500.0, 145575.0, - 130295.0, - 94435.9, + 130294.99999999999, + 94435.90000000001, 89422.2, 73182.2, 71643.8, @@ -68067,7 +68076,7 @@ 126346.0, 121111.0, 123364.0, - 129271.0, + 129270.99999999999, 135667.0, 143393.0, 144880.0, @@ -68086,7 +68095,7 @@ 38936.2, 38936.2, 41616.6, - 62712.2, + 62712.200000000004, 66785.5, 125881.0, 121267.0, @@ -68110,7 +68119,7 @@ 33575.4, 33575.4, 33575.4, - 54316.2, + 54316.200000000004, 45031.3, 69980.0, 77857.9, @@ -68143,7 +68152,7 @@ 32729.5, 37659.9, 42070.1, - 38140.7, + 38140.700000000004, 44411.5, 39742.600000000006, 34316.8, @@ -68230,7 +68239,7 @@ 38936.2, 38936.2, 41616.6, - 64556.7, + 64556.700000000004, 68310.3, 126165.0, 115742.0, @@ -68263,7 +68272,7 @@ 122490.0, 128465.0, 127970.0, - 129468.0, + 129467.99999999999, 134053.0, 122069.0, 81164.3, @@ -68314,7 +68323,7 @@ 23276.5, 30670.5, 32223.199999999997, - 23425.1, + 23425.100000000002, 33575.4, 33575.4, 33575.4, @@ -68339,7 +68348,7 @@ 143878.0, 129222.00000000002, 86564.09999999999, - 91830.2, + 91830.20000000001, 73820.3, 72207.9, 41616.6, @@ -68355,12 +68364,12 @@ 131372.0, 124827.0, 125691.0, - 130759.0, + 130758.99999999999, 132752.0, 135725.0, 130679.0, 130025.0, - 131039.0, + 131038.99999999999, 117887.0, 76734.6, 86124.4, @@ -68447,11 +68456,11 @@ 33575.4, 33575.4, 48477.3, - 46403.8, + 46403.799999999996, 73858.7, 81944.90000000001, 86709.1, - 93995.1, + 93995.09999999999, 97826.7, 99695.9, 71279.70000000001, @@ -68472,8 +68481,8 @@ 33575.4, 26173.4, 18771.4, - 21421.4, - 27109.1, + 21421.399999999998, + 27109.100000000002, 29073.8, 28741.0, 34676.6, @@ -68483,7 +68492,7 @@ 44128.4, 45590.899999999994, 37870.0, - 38250.7, + 38250.700000000004, 33575.4, 33575.4, 33575.4, @@ -68494,7 +68503,7 @@ 38936.2, 38936.2, 41616.6, - 47853.2, + 47853.200000000004, 61386.4, 133685.0, 132233.0, @@ -68518,7 +68527,7 @@ 38936.2, 38936.2, 41616.6, - 44040.7, + 44040.700000000004, 59052.2, 131243.0, 128370.0, @@ -68542,7 +68551,7 @@ 38936.2, 38936.2, 41616.6, - 44011.3, + 44011.299999999996, 58628.4, 128191.0, 121964.0, @@ -68623,10 +68632,10 @@ 86226.9, 88066.2, 60981.6, - 61698.7, + 61698.700000000004, 64599.8, 56766.7, - 23940.1, + 23940.100000000002, 33575.4, 33575.4, 33575.4, @@ -68648,7 +68657,7 @@ 33045.0, 31874.7, 41191.6, - 41774.8, + 41774.799999999996, 31414.6, 20804.7, 33575.4, @@ -68663,7 +68672,7 @@ 38936.2, 41616.6, 48182.899999999994, - 63271.3, + 63271.299999999996, 134211.0, 130156.0, 136589.0, @@ -68686,7 +68695,7 @@ 38936.2, 38936.2, 41616.6, - 42152.8, + 42152.799999999996, 61638.399999999994, 136060.0, 132857.0, @@ -68734,7 +68743,7 @@ 38936.2, 38936.2, 41616.6, - 44996.3, + 44996.299999999996, 64093.0, 140857.0, 139350.0, @@ -68819,7 +68828,7 @@ 37443.3, 32916.9, 30493.1, - 31969.1, + 31969.100000000002, 33575.4, 33575.4, 33575.4, @@ -68902,7 +68911,7 @@ 38936.2, 38936.2, 41616.6, - 61363.8, + 61363.799999999996, 70260.40000000001, 126562.0, 118576.0, @@ -68950,13 +68959,13 @@ 33575.4, 33575.4, 33575.4, - 46084.2, + 46084.200000000004, 46087.899999999994, 74048.7, 82755.79999999999, 84313.90000000001, 91813.5, - 95159.1, + 95159.09999999999, 94153.9, 66030.8, 66663.2, @@ -68986,8 +68995,8 @@ 41958.5, 46153.5, 44058.4, - 38650.8, - 37494.7, + 38650.799999999996, + 37494.700000000004, 33575.4, 33575.4, 33575.4, @@ -69007,7 +69016,7 @@ 131761.0, 136860.0, 132215.0, - 130117.0, + 130116.99999999999, 132756.0, 122496.0, 83395.1, @@ -69046,7 +69055,7 @@ 38936.2, 38936.2, 41616.6, - 39213.7, + 39213.700000000004, 60504.9, 128769.0, 122621.0, @@ -69054,7 +69063,7 @@ 126911.0, 128550.00000000002, 134286.0, - 130593.0, + 130592.99999999999, 130716.00000000002, 132876.0, 117576.0, @@ -69070,8 +69079,8 @@ 38936.2, 38936.2, 41616.6, - 44168.8, - 62674.8, + 44168.799999999996, + 62674.799999999996, 125124.0, 119281.0, 120392.0, @@ -69129,7 +69138,7 @@ 60998.7, 57952.7, 57368.5, - 47350.7, + 47350.700000000004, 24851.7, 28640.7, 33575.4, @@ -69174,7 +69183,7 @@ 126185.0, 127953.0, 131208.0, - 129658.0, + 129657.99999999999, 134934.0, 143569.0, 133209.0, @@ -69193,7 +69202,7 @@ 41769.0, 64910.3, 137224.0, - 130992.0, + 130991.99999999999, 131823.0, 139611.0, 142618.0, @@ -69213,7 +69222,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 41062.3, 64038.0, 127931.0, @@ -69237,7 +69246,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 39534.0, 60008.899999999994, 126871.0, @@ -69261,9 +69270,9 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 39618.0, - 60232.8, + 60232.799999999996, 128616.00000000002, 125855.0, 130205.00000000002, @@ -69286,21 +69295,21 @@ 33575.4, 33575.4, 31108.0, - 37688.2, + 37688.200000000004, 46979.3, 77070.09999999999, 86471.3, 90744.4, - 95654.7, + 95654.70000000001, 97336.5, - 97943.3, + 97943.29999999999, 71222.0, 73943.5, 75770.2, 66958.29999999999, 43009.2, - 44450.2, - 38503.8, + 44450.200000000004, + 38503.799999999996, 33575.4, 33575.4, 33575.4, @@ -69312,7 +69321,7 @@ 31108.0, 19273.1, 31205.4, - 36228.7, + 36228.700000000004, 38889.0, 38172.0, 35370.1, @@ -69321,8 +69330,8 @@ 39460.2, 44742.600000000006, 46791.600000000006, - 45380.3, - 44936.8, + 45380.299999999996, + 44936.799999999996, 46322.8, 38194.8, 33575.4, @@ -69333,7 +69342,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 41858.9, 65568.4, 144535.0, @@ -69346,7 +69355,7 @@ 164595.0, 168628.0, 150286.0, - 98019.6, + 98019.59999999999, 93566.5, 79386.6, 74912.40000000001, @@ -69357,7 +69366,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 39402.2, 62638.3, 135175.0, @@ -69381,7 +69390,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 34530.2, 58115.8, 131084.0, @@ -69405,7 +69414,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 37648.7, 62003.0, 139446.0, @@ -69429,7 +69438,7 @@ 38936.2, 38936.2, 38936.2, - 39149.3, + 39149.299999999996, 42885.1, 68844.3, 150728.0, @@ -69458,7 +69467,7 @@ 55420.5, 88153.09999999999, 94347.3, - 96629.4, + 96629.40000000001, 103090.0, 105696.0, 104775.0, @@ -69479,13 +69488,13 @@ 33575.4, 28640.7, 18771.4, - 22803.1, + 22803.100000000002, 29556.7, 30029.699999999997, 33116.9, 26219.7, 22010.4, - 29899.1, + 29899.100000000002, 29805.0, 43473.2, 43262.0, @@ -69515,7 +69524,7 @@ 159505.0, 146714.0, 97325.8, - 92128.9, + 92128.90000000001, 75185.3, 70433.59999999999, 41616.6, @@ -69527,7 +69536,7 @@ 38936.2, 36681.9, 35220.5, - 58676.3, + 58676.299999999996, 131154.0, 127893.0, 132550.0, @@ -69622,19 +69631,19 @@ 33575.4, 33575.4, 28640.7, - 38011.3, + 38011.299999999996, 47846.0, 77663.79999999999, 82810.1, 85402.4, 90629.2, - 92601.3, + 92601.29999999999, 94070.8, 67945.40000000001, 71132.3, 73141.2, - 62817.7, - 39792.3, + 62817.700000000004, + 39792.299999999996, 40468.3, 33575.4, 33575.4, @@ -69658,9 +69667,9 @@ 41692.0, 44982.4, 43355.0, - 45278.8, + 45278.799999999996, 43555.3, - 40487.2, + 40487.200000000004, 35037.2, 33575.4, 33575.4, @@ -69718,7 +69727,7 @@ 38936.2, 38936.2, 36681.9, - 43936.8, + 43936.799999999996, 67672.2, 147521.0, 144574.0, @@ -69730,7 +69739,7 @@ 156628.0, 155792.0, 139086.0, - 95245.1, + 95245.09999999999, 94772.0, 84714.5, 81302.3, @@ -69780,8 +69789,8 @@ 174797.0, 120109.0, 113761.0, - 98632.4, - 94016.1, + 98632.40000000001, + 94016.09999999999, 41616.6, 44328.0, 40665.100000000006, @@ -69802,8 +69811,8 @@ 77478.4, 73861.7, 62045.7, - 32017.9, - 39819.2, + 32017.899999999998, + 39819.200000000004, 39614.1, 33575.4, 38998.9, @@ -69816,14 +69825,14 @@ 28640.7, 27993.7, 40551.9, - 40189.8, + 40189.799999999996, 43152.6, 42575.8, 44281.2, - 40634.7, + 40634.700000000004, 46699.6, 45949.1, - 48887.7, + 48887.700000000004, 42877.899999999994, 48719.2, 42504.2, @@ -69842,7 +69851,7 @@ 37418.2, 38562.399999999994, 41961.6, - 40753.7, + 40753.700000000004, 41376.0, 34673.0, 38344.8, @@ -69853,7 +69862,7 @@ 41747.6, 45371.6, 40165.0, - 37470.8, + 37470.799999999996, 35976.2, 34737.9, 33575.4, @@ -69900,7 +69909,7 @@ 164111.0, 112446.0, 107492.0, - 92410.8, + 92410.79999999999, 87642.9, 41616.6, 38936.2, @@ -69929,7 +69938,7 @@ 41616.6, 44330.9, 40507.1, - 42012.7, + 42012.700000000004, 38936.2, 38936.2, 38936.2, @@ -69950,9 +69959,9 @@ 126957.0, 104333.0, 97921.7, - 47352.2, + 47352.200000000004, 40672.600000000006, - 42298.3, + 42298.299999999996, 33575.4, 33575.4, 33575.4, @@ -69967,12 +69976,12 @@ 122749.0, 127635.0, 96672.9, - 97501.4, + 97501.40000000001, 100490.0, 91963.8, - 49725.3, + 49725.299999999996, 47090.7, - 53813.2, + 53813.200000000004, 48154.0, 41006.0, 39345.6, @@ -69985,15 +69994,15 @@ 27789.7, 37429.4, 39397.3, - 43990.2, + 43990.200000000004, 44732.6, 49070.6, 46918.0, 50241.3, - 46758.3, + 46758.299999999996, 54228.4, 50168.6, - 50671.7, + 50671.700000000004, 47588.5, 51393.0, 50310.0, @@ -70023,13 +70032,13 @@ 96843.2, 93137.7, 41616.6, - 44036.2, + 44036.200000000004, 40590.5, 42201.0, 40441.6, 41922.4, 38936.2, - 38752.3, + 38752.299999999996, 56842.5, 77001.5, 162326.0, @@ -70118,8 +70127,8 @@ 123836.0, 104565.0, 95450.0, - 47194.2, - 40530.3, + 47194.200000000004, + 40530.299999999996, 42129.5, 33575.4, 33575.4, @@ -70142,7 +70151,7 @@ 44528.399999999994, 46600.9, 40463.1, - 37338.8, + 37338.799999999996, 35392.7, 33575.4, 33575.4, @@ -70151,7 +70160,7 @@ 33575.4, 26173.4, 23893.0, - 31596.4, + 31596.399999999998, 39891.6, 37922.3, 44867.3, @@ -70198,7 +70207,7 @@ 38936.2, 38936.2, 35495.5, - 56009.7, + 56009.700000000004, 80966.3, 170519.0, 171558.0, @@ -70213,7 +70222,7 @@ 150935.0, 130769.0, 106225.0, - 98320.1, + 98320.09999999999, 47337.1, 42531.7, 40703.6, @@ -70247,7 +70256,7 @@ 38936.2, 34214.6, 40625.5, - 64500.3, + 64500.299999999996, 143482.0, 140560.0, 146776.0, @@ -70285,7 +70294,7 @@ 123447.0, 114691.0, 97827.9, - 90862.8, + 90862.79999999999, 41616.6, 38936.2, 38936.2, @@ -70323,17 +70332,17 @@ 38552.9, 41798.1, 41873.399999999994, - 43231.3, + 43231.299999999996, 38973.3, 43670.1, - 43871.2, + 43871.200000000004, 47019.9, 50714.3, 47563.8, 48218.8, 44683.2, 48593.0, - 40982.7, + 40982.700000000004, 33575.4, 37872.100000000006, 33575.4, @@ -70342,7 +70351,7 @@ 38936.2, 38936.2, 34214.6, - 46348.7, + 46348.700000000004, 71832.8, 157981.0, 157303.0, @@ -70359,7 +70368,7 @@ 97283.8, 91373.0, 41616.6, - 42095.7, + 42095.700000000004, 40490.4, 38936.2, 38936.2, @@ -70404,7 +70413,7 @@ 176356.0, 120142.0, 110104.0, - 93437.3, + 93437.29999999999, 86837.3, 41616.6, 38936.2, @@ -70456,7 +70465,7 @@ 104751.0, 51149.0, 45937.5, - 44302.8, + 44302.799999999996, 33575.4, 38153.5, 33575.4, @@ -70500,16 +70509,16 @@ 53273.4, 58579.4, 50474.1, - 62283.3, + 62283.299999999996, 47644.5, 47747.6, 44917.1, 40510.0, 44860.3, 43790.100000000006, - 42228.2, - 42091.8, - 37953.2, + 42228.200000000004, + 42091.799999999996, + 37953.200000000004, 59860.100000000006, 83822.3, 173585.0, @@ -70528,11 +70537,11 @@ 107725.0, 50713.2, 49004.399999999994, - 43215.3, + 43215.299999999996, 43317.3, 41622.100000000006, 40257.1, - 42665.7, + 42665.700000000004, 34214.6, 57431.5, 82722.7, @@ -70550,13 +70559,13 @@ 133903.0, 111424.0, 103002.0, - 47127.3, + 47127.299999999996, 48580.0, 43778.399999999994, 44595.0, 44043.5, 38936.2, - 43503.8, + 43503.799999999996, 36681.9, 57821.9, 80378.1, @@ -70575,7 +70584,7 @@ 105676.0, 100010.0, 47668.6, - 48725.2, + 48725.200000000004, 38936.2, 43553.5, 38936.2, @@ -70603,7 +70612,7 @@ 42612.6, 44114.1, 38936.2, - 42649.7, + 42649.700000000004, 38936.2, 36681.9, 47825.6, @@ -70621,7 +70630,7 @@ 139746.0, 122483.0, 101139.0, - 95117.9, + 95117.90000000001, 43398.1, 42426.0, 43643.5, @@ -70631,7 +70640,7 @@ 33575.4, 28640.7, 48455.5, - 55640.8, + 55640.799999999996, 86933.7, 92244.0, 95148.5, @@ -70640,7 +70649,7 @@ 110269.0, 83596.40000000001, 88216.5, - 92157.7, + 92157.70000000001, 83665.40000000001, 48435.6, 47031.0, @@ -70695,12 +70704,12 @@ 122516.0, 109776.0, 50769.0, - 49146.8, + 49146.799999999996, 43548.4, 36595.9, 35072.6, 35009.700000000004, - 36412.8, + 36412.799999999996, 28640.7, 31902.5, 39977.3, @@ -70708,20 +70717,20 @@ 44537.9, 44436.6, 48360.3, - 48860.8, + 48860.799999999996, 54553.3, 55134.6, 60052.100000000006, - 55005.2, + 55005.200000000004, 58535.600000000006, - 57210.7, + 57210.700000000004, 58006.2, 62301.8, - 57601.8, + 57601.799999999996, 52813.7, 48570.5, 45674.0, - 47015.8, + 47015.799999999996, 48880.0, 43467.1, 43984.7, @@ -70742,7 +70751,7 @@ 160063.0, 129085.00000000002, 120251.0, - 55381.7, + 55381.700000000004, 56595.0, 48127.8, 49989.8, @@ -70767,7 +70776,7 @@ 134803.0, 121631.0, 56120.7, - 57505.3, + 57505.299999999996, 50634.3, 49176.8, 44499.899999999994, @@ -70797,7 +70806,7 @@ 42560.4, 39877.5, 38849.3, - 38272.8, + 38272.799999999996, 62295.8, 66938.5, 99375.9, @@ -70819,8 +70828,8 @@ 46981.0, 41977.8, 42780.5, - 39051.2, - 37072.2, + 39051.200000000004, + 37072.200000000004, 31226.5, 33383.899999999994, 38638.2, @@ -70839,12 +70848,12 @@ 59649.0, 48638.9, 48627.8, - 45533.7, + 45533.700000000004, 44628.3, 44757.6, 44036.5, 43657.1, - 43291.2, + 43291.200000000004, 40766.2, 53358.3, 77484.2, @@ -70870,7 +70879,7 @@ 43265.1, 38936.2, 41025.7, - 56396.7, + 56396.700000000004, 77228.7, 163718.0, 162252.0, @@ -70894,7 +70903,7 @@ 38936.2, 38936.2, 36681.9, - 58161.3, + 58161.299999999996, 81486.8, 169651.0, 166546.0, @@ -70994,7 +71003,7 @@ 39430.0, 38267.5, 45279.8, - 41517.3, + 41517.299999999996, 48849.7, 43617.0, 51419.3, @@ -71009,11 +71018,11 @@ 44248.9, 40487.6, 36806.5, - 43572.2, - 41896.3, - 43058.8, + 43572.200000000004, + 41896.299999999996, + 43058.799999999996, 42857.5, - 39149.3, + 39149.299999999996, 53822.5, 77231.2, 167766.0, @@ -71033,11 +71042,11 @@ 51800.5, 45154.4, 42580.7, - 43659.8, - 43308.8, + 43659.799999999996, + 43308.799999999996, 41569.6, 40224.8, - 39149.3, + 39149.299999999996, 53128.0, 77252.79999999999, 169719.0, @@ -71056,13 +71065,13 @@ 117956.0, 55607.2, 54344.2, - 50475.2, + 50475.200000000004, 50856.4, 43314.0, - 44146.8, + 44146.799999999996, 40597.5, 42454.5, - 61823.7, + 61823.700000000004, 83881.4, 179564.0, 181856.0, @@ -71079,14 +71088,14 @@ 143882.0, 124935.0, 56049.0, - 63942.8, + 63942.799999999996, 52326.9, 54095.5, - 48768.8, + 48768.799999999996, 45985.3, 48460.4, 45139.6, - 62872.7, + 62872.700000000004, 88399.1, 185270.0, 192319.0, @@ -71131,12 +71140,12 @@ 50945.9, 44822.7, 39916.4, - 38909.8, + 38909.799999999996, 33575.4, 32777.799999999996, - 61648.2, - 65035.8, - 99909.1, + 61648.200000000004, + 65035.799999999996, + 99909.09999999999, 111456.0, 120101.0, 130216.00000000002, @@ -71146,13 +71155,13 @@ 88509.20000000001, 83248.7, 73550.1, - 42034.8, + 42034.799999999996, 43465.899999999994, 48809.9, 45493.5, 40366.0, 46684.3, - 40185.2, + 40185.200000000004, 39087.5, 33575.4, 33575.4, @@ -71169,7 +71178,7 @@ 53842.0, 56983.3, 58969.5, - 58624.3, + 58624.299999999996, 56008.7, 53986.7, 59768.4, @@ -71181,7 +71190,7 @@ 50739.4, 46112.1, 43418.0, - 44603.2, + 44603.200000000004, 62498.2, 85644.90000000001, 179676.0, @@ -71198,14 +71207,14 @@ 141169.0, 115999.0, 105249.0, - 51887.8, + 51887.799999999996, 52817.6, - 45932.2, + 45932.200000000004, 45891.8, - 42474.2, + 42474.200000000004, 44111.600000000006, 43868.6, - 39149.3, + 39149.299999999996, 60422.3, 81987.4, 176350.0, @@ -71224,8 +71233,8 @@ 110824.0, 53526.1, 54269.3, - 48394.8, - 48017.2, + 48394.799999999996, + 48017.200000000004, 42282.9, 42103.8, 43492.7, @@ -71251,7 +71260,7 @@ 43603.0, 44558.100000000006, 43922.4, - 43618.3, + 43618.299999999996, 40385.5, 46078.6, 59973.5, @@ -71299,7 +71308,7 @@ 42924.100000000006, 39202.9, 33575.4, - 38063.3, + 38063.299999999996, 33575.4, 31108.0, 57211.399999999994, @@ -71314,7 +71323,7 @@ 112752.0, 118337.0, 107472.0, - 54566.3, + 54566.299999999996, 53781.9, 63570.4, 51501.7, @@ -71323,11 +71332,11 @@ 44843.7, 39448.1, 33575.4, - 38508.2, + 38508.200000000004, 33575.4, 31108.0, 26632.4, - 38076.7, + 38076.700000000004, 41375.9, 46793.4, 45987.7, @@ -71339,15 +71348,15 @@ 59700.0, 65137.0, 58063.5, - 62022.8, + 62022.799999999996, 63622.9, 52098.5, 48760.9, - 48521.8, + 48521.799999999996, 40181.0, - 44406.8, + 44406.799999999996, 44392.0, - 49771.7, + 49771.700000000004, 43547.0, 43416.7, 53673.9, @@ -71367,12 +71376,12 @@ 108779.0, 98155.1, 46362.4, - 47451.7, + 47451.700000000004, 44383.5, 42501.399999999994, 40660.3, 44090.5, - 42343.2, + 42343.200000000004, 43277.1, 64189.3, 87476.5, @@ -71392,11 +71401,11 @@ 111364.0, 53699.7, 53765.2, - 46908.2, + 46908.200000000004, 46131.4, 44269.1, 44143.3, - 42349.2, + 42349.200000000004, 43268.0, 62763.9, 82667.1, @@ -71443,7 +71452,7 @@ 48652.1, 49629.7, 51881.0, - 47424.8, + 47424.799999999996, 46937.9, 53678.3, 67119.6, @@ -71464,7 +71473,7 @@ 116646.0, 52686.100000000006, 55529.899999999994, - 48904.2, + 48904.200000000004, 44359.0, 40135.0, 37903.9, @@ -71474,7 +71483,7 @@ 77826.3, 113315.0, 123156.0, - 128296.0, + 128295.99999999999, 135746.0, 140246.0, 144860.0, @@ -71489,13 +71498,13 @@ 50572.7, 46704.0, 46131.9, - 43673.2, + 43673.200000000004, 38606.5, 39515.3, 35610.799999999996, 37450.1, 35742.7, - 44472.3, + 44472.299999999996, 43706.4, 47995.7, 47916.600000000006, @@ -71504,18 +71513,18 @@ 54815.399999999994, 54425.0, 59484.9, - 60564.7, + 60564.700000000004, 62653.2, 54531.7, 58414.0, 58518.6, 61568.2, - 47979.8, + 47979.799999999996, 50198.2, - 47706.3, - 53901.3, + 47706.299999999996, + 53901.299999999996, 50401.8, - 52832.7, + 52832.700000000004, 44723.4, 51764.7, 66318.70000000001, @@ -71559,10 +71568,10 @@ 131819.0, 122342.0, 58681.5, - 61426.3, + 61426.299999999996, 52145.899999999994, 54116.3, - 50622.7, + 50622.700000000004, 53012.3, 46527.4, 52148.8, @@ -71589,7 +71598,7 @@ 44786.9, 38936.2, 42718.3, - 43526.3, + 43526.299999999996, 64935.7, 86660.1, 180328.0, @@ -71611,7 +71620,7 @@ 43986.7, 44962.5, 38936.2, - 44927.8, + 44927.799999999996, 41068.9, 45628.2, 65379.49999999999, @@ -71634,7 +71643,7 @@ 48551.5, 48487.1, 37432.1, - 39210.3, + 39210.299999999996, 33575.4, 33575.4, 38619.3, @@ -71676,12 +71685,12 @@ 46647.399999999994, 46892.6, 48706.5, - 50299.7, + 50299.700000000004, 41253.4, 38029.0, 38477.0, 36648.4, - 40464.8, + 40464.799999999996, 43360.2, 38936.2, 38936.2, @@ -71702,7 +71711,7 @@ 118157.0, 99189.2, 93670.8, - 43398.3, + 43398.299999999996, 42413.5, 43930.0, 38936.2, @@ -71726,13 +71735,13 @@ 126756.0, 106829.0, 100013.0, - 45590.2, + 45590.200000000004, 40851.3, 44688.5, 38936.2, 44580.5, 38936.2, - 44384.7, + 44384.700000000004, 41616.6, 67231.8, 87140.5, @@ -71777,7 +71786,7 @@ 41616.6, 38936.2, 41491.9, - 40188.2, + 40188.200000000004, 38936.2, 38936.2, 38936.2, @@ -71797,9 +71806,9 @@ 125989.0, 122513.0, 101243.0, - 95688.9, + 95688.90000000001, 41616.6, - 44198.8, + 44198.799999999996, 38936.2, 33575.4, 33575.4, @@ -71833,7 +71842,7 @@ 24214.1, 34569.0, 39121.6, - 39923.2, + 39923.200000000004, 43393.3, 42762.0, 45626.8, @@ -71842,16 +71851,16 @@ 48790.100000000006, 54003.9, 50786.4, - 50820.7, + 50820.700000000004, 53793.3, 49299.4, - 46467.8, + 46467.799999999996, 46681.1, - 40055.7, + 40055.700000000004, 38849.1, 42261.4, - 40576.7, - 43541.2, + 40576.700000000004, + 43541.200000000004, 38936.2, 45798.0, 58418.6, @@ -71892,7 +71901,7 @@ 179880.0, 118921.0, 117475.0, - 97227.4, + 97227.40000000001, 90396.0, 41616.6, 38936.2, @@ -71977,9 +71986,9 @@ 50416.4, 54322.0, 84872.1, - 90693.7, + 90693.70000000001, 92711.9, - 98647.1, + 98647.09999999999, 101689.0, 104714.0, 76168.9, @@ -71999,23 +72008,23 @@ 33575.4, 33575.4, 21238.7, - 28605.4, + 28605.399999999998, 35641.6, 37624.1, - 40392.3, + 40392.299999999996, 38489.8, 40794.2, 42630.6, 46493.5, 46035.8, 50719.8, - 48962.2, - 49270.2, + 48962.200000000004, + 49270.200000000004, 54880.1, 54036.1, 40398.8, 38561.6, - 38980.2, + 38980.200000000004, 33575.4, 43184.5, 38936.2, @@ -72083,7 +72092,7 @@ 226848.0, 198025.0, 132781.0, - 129177.0, + 129176.99999999999, 104439.0, 98310.5, 45421.4, @@ -72110,7 +72119,7 @@ 133754.0, 108153.0, 100868.0, - 45636.2, + 45636.200000000004, 40867.0, 44554.6, 42217.5, @@ -72133,7 +72142,7 @@ 134310.0, 131547.0, 106280.0, - 99002.7, + 99002.70000000001, 47167.1, 42522.1, 40658.5, @@ -72144,7 +72153,7 @@ 33575.4, 61187.2, 59829.6, - 93730.4, + 93730.40000000001, 103044.0, 110072.0, 118312.0, @@ -72152,7 +72161,7 @@ 124789.0, 94902.1, 93870.0, - 97831.9, + 97831.90000000001, 86196.4, 46829.6, 54956.4, @@ -72195,7 +72204,7 @@ 33067.799999999996, 40980.3, 41290.2, - 48213.7, + 48213.700000000004, 43728.1, 51678.8, 45943.0, @@ -72213,7 +72222,7 @@ 44828.0, 44628.2, 38936.2, - 47082.7, + 47082.700000000004, 68353.6, 81022.8, 170196.0, @@ -72311,7 +72320,7 @@ 33575.4, 33575.4, 51490.1, - 52167.2, + 52167.200000000004, 81718.0, 87139.9, 88532.70000000001, @@ -72341,13 +72350,13 @@ 35012.1, 37323.9, 39649.4, - 42362.2, - 40472.2, - 41970.8, + 42362.200000000004, + 40472.200000000004, + 41970.799999999996, 40438.0, 42187.1, 40241.9, - 37769.8, + 37769.799999999996, 33575.4, 33575.4, 33575.4, @@ -72482,8 +72491,8 @@ 48881.100000000006, 79475.0, 87099.5, - 91237.1, - 97456.6, + 91237.09999999999, + 97456.59999999999, 99244.0, 99896.1, 70930.9, @@ -72503,10 +72512,10 @@ 33575.4, 33575.4, 26173.4, - 25968.4, + 25968.399999999998, 38654.5, 36988.9, - 42314.7, + 42314.700000000004, 36809.8, 43401.899999999994, 38870.7, @@ -72528,7 +72537,7 @@ 41616.6, 41875.4, 55698.4, - 128385.0, + 128384.99999999999, 124736.0, 128600.0, 136345.0, @@ -72550,7 +72559,7 @@ 38936.2, 38936.2, 41616.6, - 44353.3, + 44353.299999999996, 59370.399999999994, 131800.0, 126771.0, @@ -72563,7 +72572,7 @@ 155952.0, 137874.0, 89496.0, - 91208.2, + 91208.20000000001, 71608.8, 68237.09999999999, 41616.6, @@ -72575,7 +72584,7 @@ 38936.2, 41616.6, 44514.5, - 59816.2, + 59816.200000000004, 132202.0, 128148.0, 131643.0, @@ -72622,7 +72631,7 @@ 38936.2, 38936.2, 41616.6, - 42515.7, + 42515.700000000004, 57006.5, 130553.0, 130625.0, @@ -72650,7 +72659,7 @@ 46551.0, 77767.3, 88577.6, - 95428.3, + 95428.29999999999, 103711.0, 107776.0, 110921.0, @@ -72672,7 +72681,7 @@ 33575.4, 28640.7, 26091.0, - 37398.3, + 37398.299999999996, 38547.8, 42387.6, 42293.5, @@ -72685,16 +72694,16 @@ 55449.8, 48664.6, 42501.0, - 41121.2, + 41121.200000000004, 33575.4, - 38286.2, + 38286.200000000004, 33575.4, 38936.2, 38936.2, 38936.2, 38936.2, 41616.6, - 59079.7, + 59079.700000000004, 69419.3, 154601.0, 158198.0, @@ -72718,7 +72727,7 @@ 38936.2, 38936.2, 41616.6, - 60030.3, + 60030.299999999996, 69773.9, 156544.0, 160504.0, @@ -72765,7 +72774,7 @@ 38936.2, 38936.2, 38936.2, - 45838.3, + 45838.299999999996, 64596.0, 74810.3, 164623.0, @@ -72783,7 +72792,7 @@ 100244.0, 94901.0, 41616.6, - 44214.8, + 44214.799999999996, 40609.7, 42205.3, 38936.2, @@ -72815,14 +72824,14 @@ 33575.4, 33575.4, 62744.0, - 55040.7, + 55040.700000000004, 86955.8, 97589.6, 105833.0, 115434.0, 120585.0, 125116.0, - 95950.9, + 95950.90000000001, 96741.7, 97423.3, 81634.6, @@ -72840,7 +72849,7 @@ 33575.4, 28640.7, 20171.9, - 25627.6, + 25627.600000000002, 31969.3, 31582.2, 38786.8, @@ -72935,7 +72944,7 @@ 38936.2, 41616.6, 53746.0, - 63902.7, + 63902.700000000004, 140090.0, 140719.0, 150380.0, @@ -72993,7 +73002,7 @@ 62229.0, 61007.3, 59427.4, - 49198.8, + 49198.799999999996, 28640.7, 33575.4, 33575.4, @@ -73013,12 +73022,12 @@ 32204.700000000004, 38485.0, 33066.200000000004, - 42186.7, - 38238.7, + 42186.700000000004, + 38238.700000000004, 43480.600000000006, 38776.8, 36790.3, - 38519.8, + 38519.799999999996, 33575.4, 33575.4, 33575.4, @@ -73034,12 +73043,12 @@ 18771.4, 25350.8, 30767.3, - 32730.6, + 32730.600000000002, 37465.0, 39899.2, - 39539.2, + 39539.200000000004, 41921.2, - 40987.3, + 40987.299999999996, 43190.2, 41236.600000000006, 44393.9, @@ -73102,7 +73111,7 @@ 38936.2, 38936.2, 41616.6, - 48785.2, + 48785.200000000004, 57546.3, 129876.0, 129889.00000000002, @@ -73126,10 +73135,10 @@ 38936.2, 38936.2, 41616.6, - 49473.7, + 49473.700000000004, 57688.7, 129707.0, - 129516.0, + 129515.99999999999, 139048.0, 151044.0, 155496.0, @@ -73155,7 +73164,7 @@ 70633.9, 78982.29999999999, 85316.8, - 94362.1, + 94362.09999999999, 98935.8, 102210.0, 75076.5, @@ -73184,9 +73193,9 @@ 43527.1, 46853.1, 44637.3, - 46738.8, + 46738.799999999996, 43405.6, - 39671.7, + 39671.700000000004, 37087.899999999994, 33575.4, 33575.4, @@ -73199,7 +73208,7 @@ 38936.2, 41616.6, 49465.7, - 58090.3, + 58090.299999999996, 130288.00000000002, 131094.0, 141773.0, @@ -73270,7 +73279,7 @@ 38936.2, 38936.2, 41616.6, - 51165.8, + 51165.799999999996, 59872.100000000006, 133158.0, 132570.0, @@ -73281,9 +73290,9 @@ 148048.0, 144695.0, 145241.0, - 129063.0, + 129062.99999999999, 98806.5, - 92961.2, + 92961.20000000001, 74791.9, 72436.7, 41616.6, @@ -73298,7 +73307,7 @@ 57544.600000000006, 126422.0, 124585.0, - 129688.0, + 129687.99999999999, 137296.0, 139939.0, 147115.0, @@ -73346,13 +73355,13 @@ 18771.4, 18771.4, 18771.4, - 22199.9, + 22199.899999999998, 34536.9, 35703.4, 38084.0, 37252.7, - 38920.3, - 36720.7, + 38920.299999999996, + 36720.700000000004, 32225.499999999996, 33575.4, 33575.4, @@ -73367,8 +73376,8 @@ 38936.2, 41616.6, 55261.0, - 59728.3, - 128766.0, + 59728.299999999996, + 128765.99999999999, 125528.0, 129904.0, 139063.0, @@ -73403,7 +73412,7 @@ 166638.0, 148998.0, 106662.0, - 97903.6, + 97903.59999999999, 76929.7, 72683.2, 41616.6, @@ -73427,7 +73436,7 @@ 168312.0, 150523.0, 107713.0, - 98284.1, + 98284.09999999999, 76948.2, 72654.0, 41616.6, @@ -73474,7 +73483,7 @@ 140216.0, 144094.0, 130291.0, - 98019.4, + 98019.40000000001, 92683.5, 73590.2, 70013.5, @@ -73494,10 +73503,10 @@ 70535.1, 72190.0, 71877.70000000001, - 44880.2, + 44880.200000000004, 44910.3, 46794.600000000006, - 43770.3, + 43770.299999999996, 33575.4, 33575.4, 33575.4, @@ -73594,7 +73603,7 @@ 140214.0, 144989.0, 129032.00000000002, - 93989.9, + 93989.90000000001, 86920.2, 69142.9, 67890.1, @@ -73611,14 +73620,14 @@ 125993.0, 119515.0, 122365.0, - 130581.0, + 130580.99999999999, 136978.0, 147005.0, 146223.0, 147983.0, 152423.0, 136822.0, - 97038.8, + 97038.79999999999, 89089.29999999999, 70572.0, 68668.5, @@ -73760,7 +73769,7 @@ 130442.0, 134389.0, 129566.0, - 128909.0, + 128908.99999999999, 132177.0, 125930.0, 84578.2, @@ -73799,7 +73808,7 @@ 38936.2, 38936.2, 41616.6, - 91059.7, + 91059.70000000001, 82484.2, 130491.00000000002, 118391.0, @@ -73872,18 +73881,18 @@ 38936.2, 41616.6, 99553.5, - 95273.8, + 95273.79999999999, 133538.0, 120150.0, 119917.0, 124632.0, - 128682.0, + 128681.99999999999, 132156.0, 127853.0, 128219.0, 136580.0, - 130147.0, - 92365.1, + 130146.99999999999, + 92365.09999999999, 88647.5, 76427.59999999999, 79706.2, @@ -73897,7 +73906,7 @@ 41616.6, 83530.7, 79509.7, - 129444.0, + 129443.99999999999, 118909.0, 119739.0, 126674.0, @@ -73967,7 +73976,7 @@ 38936.2, 38936.2, 41616.6, - 58037.8, + 58037.799999999996, 63439.3, 127618.0, 121761.0, @@ -74019,7 +74028,7 @@ 18771.4, 18771.4, 18771.4, - 19428.9, + 19428.899999999998, 21009.699999999997, 24421.5, 22519.2, @@ -74052,9 +74061,9 @@ 124573.0, 125817.0, 96894.3, - 99766.4, + 99766.40000000001, 91389.1, - 93749.8, + 93749.79999999999, 41616.6, 38936.2, 38936.2, @@ -74093,10 +74102,10 @@ 121537.0, 121171.0, 125717.0, - 129551.0, + 129550.99999999999, 132837.0, - 128915.0, - 129117.0, + 128914.99999999999, + 129116.99999999999, 138826.0, 134495.0, 97366.5, @@ -74137,7 +74146,7 @@ 41616.6, 92813.3, 84254.5, - 130528.0, + 130527.99999999999, 119266.0, 119426.0, 125485.0, @@ -74168,7 +74177,7 @@ 87644.59999999999, 86123.7, 58597.4, - 56650.8, + 56650.799999999996, 61802.100000000006, 61218.9, 33575.4, @@ -74189,7 +74198,7 @@ 18771.4, 24712.6, 33485.700000000004, - 36927.8, + 36927.799999999996, 36282.3, 37830.0, 27158.7, @@ -74209,7 +74218,7 @@ 41616.6, 69608.8, 71152.7, - 130146.0, + 130145.99999999999, 123840.0, 124117.0, 128541.0, @@ -74236,7 +74245,7 @@ 126911.0, 119793.0, 122315.0, - 128879.0, + 128878.99999999999, 134000.0, 140083.0, 135930.0, @@ -74263,8 +74272,8 @@ 124472.0, 127666.0, 132636.0, - 129515.0, - 129878.0, + 129514.99999999999, + 129877.99999999999, 137304.0, 129340.0, 88128.8, @@ -74304,7 +74313,7 @@ 38936.2, 41616.6, 102044.0, - 94431.8, + 94431.79999999999, 135886.0, 121886.0, 118155.0, @@ -74329,7 +74338,7 @@ 33575.4, 126462.0, 96049.2, - 93885.6, + 93885.59999999999, 88225.09999999999, 84725.4, 84528.9, @@ -74400,7 +74409,7 @@ 38936.2, 41616.6, 142716.0, - 130147.0, + 130146.99999999999, 163640.0, 144764.0, 136399.0, @@ -74413,7 +74422,7 @@ 136796.0, 107765.0, 107344.0, - 98304.9, + 98304.90000000001, 100079.0, 41616.6, 38936.2, @@ -74472,7 +74481,7 @@ 38936.2, 41616.6, 107704.0, - 93085.4, + 93085.40000000001, 132757.0, 122881.0, 122966.0, @@ -74503,9 +74512,9 @@ 80147.90000000001, 78534.59999999999, 73135.7, - 50027.3, + 50027.299999999996, 48809.7, - 59842.8, + 59842.799999999996, 68167.0, 33575.4, 33575.4, @@ -74549,14 +74558,14 @@ 123677.0, 120589.0, 125521.0, - 128534.0, + 128533.99999999999, 128732.0, 125019.0, 124147.0, 131156.0, 123959.0, 90021.8, - 91303.8, + 91303.79999999999, 82288.79999999999, 84619.1, 41616.6, @@ -74568,13 +74577,13 @@ 38936.2, 41616.6, 101387.0, - 90134.9, + 90134.90000000001, 131867.0, 119908.0, 120330.0, 125113.0, 127775.0, - 130390.0, + 130389.99999999999, 126099.0, 124502.0, 131187.0, @@ -74593,7 +74602,7 @@ 41616.6, 95556.9, 86512.1, - 130962.0, + 130961.99999999999, 118795.0, 118531.0, 125894.0, @@ -74601,7 +74610,7 @@ 131609.0, 128061.0, 126200.0, - 130611.0, + 130610.99999999999, 122206.0, 85141.3, 85429.4, @@ -74617,12 +74626,12 @@ 41616.6, 90687.4, 81240.09999999999, - 129486.0, + 129485.99999999999, 118235.0, 118087.0, 122448.0, 125240.0, - 130742.0, + 130741.99999999999, 129072.0, 127440.0, 131252.0, @@ -74639,9 +74648,9 @@ 38936.2, 38936.2, 41616.6, - 92574.7, + 92574.70000000001, 83229.7, - 130295.0, + 130294.99999999999, 118614.0, 117865.0, 124541.0, @@ -74671,7 +74680,7 @@ 80911.4, 79811.6, 74811.09999999999, - 47912.8, + 47912.799999999996, 49054.5, 58614.600000000006, 65977.40000000001, @@ -74717,7 +74726,7 @@ 131070.0, 124398.0, 126319.0, - 131069.0, + 131068.99999999999, 129249.0, 125114.0, 124165.0, @@ -74726,7 +74735,7 @@ 94260.5, 97233.0, 89943.5, - 93367.6, + 93367.59999999999, 41616.6, 38936.2, 38936.2, @@ -74748,7 +74757,7 @@ 126607.0, 123003.0, 92340.2, - 93315.7, + 93315.70000000001, 85147.09999999999, 88102.8, 41616.6, @@ -74783,7 +74792,7 @@ 38936.2, 38936.2, 41616.6, - 91359.1, + 91359.09999999999, 83843.90000000001, 129812.00000000002, 120692.0, @@ -74807,7 +74816,7 @@ 38936.2, 38936.2, 41616.6, - 90528.4, + 90528.40000000001, 84346.40000000001, 130461.00000000002, 118571.0, @@ -74820,7 +74829,7 @@ 123218.0, 122469.0, 90855.2, - 93116.2, + 93116.20000000001, 85178.2, 87345.4, 41616.6, @@ -74876,7 +74885,7 @@ 36307.6, 39466.6, 39239.3, - 41398.2, + 41398.200000000004, 40382.3, 43400.3, 39404.5, @@ -74896,11 +74905,11 @@ 33575.4, 33575.4, 33575.4, - 36322.3, + 36322.299999999996, 41800.2, - 44445.8, + 44445.799999999996, 43941.0, - 46045.2, + 46045.200000000004, 45263.1, 50540.4, 184050.0, @@ -74938,7 +74947,7 @@ 119881.0, 118743.0, 128723.00000000002, - 128170.0, + 128169.99999999999, 96893.7, 96691.1, 88019.3, @@ -74952,7 +74961,7 @@ 38936.2, 41616.6, 95284.5, - 96373.1, + 96373.09999999999, 143728.0, 133032.0, 131387.0, @@ -83810,7 +83819,7 @@ 33.5754 ], "loan_moratorium": 0.0, - "mera_cost1": 10076956.5, + "mera_cost1": 10076956.521739133, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -83832,7 +83841,7 @@ 156200.0, 184050.0 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_thermal_bill": 0.0, "normalize_to_utility_bill": 0.0, "om_capacity": 0.0, @@ -83891,7 +83900,7 @@ "ppa_soln_mode": 0.0, "prop_tax_assessed_decline": 0.0, "prop_tax_cost_assessed_percent": 100.0, - "property_assessed_value": 135921901.61934, + "property_assessed_value": 135921902.02629654, "property_tax_rate": 0.0, "ptc_fed_amount": [ 0.0 @@ -83903,7 +83912,7 @@ ], "ptc_sta_escal": 0.0, "ptc_sta_term": 10.0, - "pv_total_installed_cost": 937311.12, + "pv_total_installed_cost": 937311.5269565217, "rate_escalation": [ 0.0 ], @@ -83925,14 +83934,14 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 100769.565, + "system_capacity": 100769.56521739131, "term_int_rate": 7.0, "term_tenor": 18.0, "thermal_1": 493720.8040000014, "thermal_10": 664864.1129999992, "thermal_11": 566944.4700000023, "thermal_12": 466793.0800000013, - "thermal_2": 485226.5400000012, + "thermal_2": 485226.54000000117, "thermal_3": 580314.9830000013, "thermal_4": 601906.9489999994, "thermal_5": 688796.4460000006, @@ -119036,7 +119045,7 @@ 0.0 ], "tod_library": "Uniform Dispatch", - "total_installed_cost": 135921901.61934, + "total_installed_cost": 135921902.02629654, "ui_annual_load": 0.0, "ui_battery_capacity": 288.1303487999999, "ui_battery_cost": 421090.49934, @@ -119044,8 +119053,8 @@ "ui_customgeneration_cost": 133874000.0, "ui_fuel_cell_capacity": 200.0, "ui_fuel_cell_cost": 84000.0, - "ui_hyb_pv_capacity": 469.565, - "ui_pv_cost": 937311.12, + "ui_hyb_pv_capacity": 469.5652173913044, + "ui_pv_cost": 937311.5269565217, "ui_wacc": 6.709740000000002, "ui_wind_cost": 605500.0, "ur_annual_min_charge": 0.0, diff --git a/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Single Owner.json b/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Single Owner.json index 88123255b3..6e8b6992d4 100644 --- a/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Single Owner.json +++ b/deploy/runtime/defaults/CustomGeneration PVWatts Wind FuelCell Battery Hybrid_Single Owner.json @@ -1,5 +1,8 @@ { "CustomGeneration": { + "ac_degradation": [ + 0.0 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -71,7 +74,7 @@ "spec_mode": 0.0, "system_capacity": 100000.0, "system_capacity_combined": 0.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_direct_cost": 105000000.0, "total_indirect_cost": 3675000.0, "total_installed_cost": 112875000.0, @@ -109,7 +112,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -130,9 +133,12 @@ "contingency_percent": 3.0, "country": "-", "dc_ac_ratio": 1.3, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -282,7 +288,7 @@ "step": 3600.0, "subtotal_direct": 99000000.0, "system_capacity": 100000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 0.0, "total_direct_cost": 101970000.0, "total_indirect_cost": 5000000.0, @@ -306,7 +312,7 @@ "ui_step_minutes": 60.0, "ui_total_land_area_ha": 175.43871222814654, "ui_total_module_area": 526315.7894736842, - "ui_total_module_area_acres": 130.05534895540846, + "ui_total_module_area_acres": 130.05534895540843, "ui_total_module_area_ha": 52.63157894736842, "ui_use_acre_per_mw": 0.0, "use_specific_weather_file": 0.0, @@ -318,6 +324,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -347,7 +356,7 @@ ], "desired_farm_size": 100.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -384,12 +393,12 @@ "specify_label": 1.0, "step": 3600.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 317480100.0, "total_installed_cost_per_kw": 1587.4005, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 100.0, @@ -19690,7 +19699,7 @@ "batt_Qexp": 0.04000005, "batt_Qexp_percent": 1.77778, "batt_Qfull": 2.25, - "batt_Qfull_flow": 478584.0, + "batt_Qfull_flow": 478583.99999999997, "batt_Qnom": 2.0000002500000004, "batt_Qnom_percent": 88.8889, "batt_Vcut": 2.706, @@ -28554,7 +28563,7 @@ "batt_dispatch_pvs_ki": 1.8, "batt_dispatch_pvs_kp": 1.2, "batt_dispatch_pvs_max_ramp": 10.0, - "batt_dispatch_pvs_nameplate": 377123.1, + "batt_dispatch_pvs_nameplate": 377123.07692307696, "batt_dispatch_pvs_nameplate_ac": 20000.0, "batt_dispatch_pvs_ramp_interval": 180.0, "batt_dispatch_pvs_short_forecast_enable": 0.0, @@ -30914,7 +30923,7 @@ "en_standalone_batt": 0.0, "generic_ui_step_minutes": 60.0, "grid_interconnection_limit_kwac": 20000.0, - "hybrid_system_capacity": 377123.1, + "hybrid_system_capacity": 377123.07692307696, "inflation_rate": 2.5, "lbl_fom_dispatch_message": "", "om_batt_capacity_cost": [ @@ -30994,7 +31003,7 @@ "wind_ui_step_minutes": 60.0 }, "Hybrid": { - "ac_nameplate": 76923.1, + "ac_nameplate": 76923.07692307692, "analysis_period": 25.0, "analysis_period_warning": "", "batt_power_discharge_max_kwac": 57600.0730368, @@ -31083,7 +31092,7 @@ ], "cp_capacity_payment_esc": 0.0, "cp_capacity_payment_type": 0.0, - "cp_system_nameplate": 377.1231, + "cp_system_nameplate": 377.12307692307697, "customgeneration_system_capacity": 100000.0, "customgeneration_total_installed_cost": 112875000.0, "debt_message": "", @@ -49421,7 +49430,7 @@ ] ], "loan_moratorium": 0.0, - "mera_cost1": 37712310.0, + "mera_cost1": 37712307.692307699, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -49429,7 +49438,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": 0.0, "om_fixed": 0.0, "om_production": 0.0, @@ -49508,7 +49517,7 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 377123.1, + "system_capacity": 377123.07692307696, "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", @@ -49520,7 +49529,7 @@ "ui_electricity_rate_option": 0.0, "ui_fuel_cell_capacity": 200.0, "ui_fuel_cell_cost": 2100000.0, - "ui_hyb_pv_capacity": 76923.1, + "ui_hyb_pv_capacity": 76923.07692307692, "ui_pv_cost": 112068500.0, "ui_system_nameplate_standalone": 0.0, "ui_wacc": 6.709740000000002, diff --git a/deploy/runtime/defaults/MEwave Battery_Single Owner.json b/deploy/runtime/defaults/MEwave Battery_Single Owner.json index 5045de8ae2..738694531d 100644 --- a/deploy/runtime/defaults/MEwave Battery_Single Owner.json +++ b/deploy/runtime/defaults/MEwave Battery_Single Owner.json @@ -22733,7 +22733,7 @@ "gearbox_cost_total_check": 0.0, "gears_cost": 0.0, "generation_planning_and_integration_cost": 0.0, - "generic_degradation": [ + "ac_degradation": [ 0.0 ], "geological_and_bathymetry_cost": 0.0, diff --git a/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Host Developer.json b/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Host Developer.json index 68c51d3e36..c0af0996d4 100644 --- a/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Host Developer.json +++ b/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Host Developer.json @@ -30,7 +30,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -51,9 +51,12 @@ "contingency_percent": 4.0, "country": "-", "dc_ac_ratio": 1.15, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -89,7 +92,7 @@ "inverter_total": 27000.0, "inverterarray_power": 469.5652173913044, "is_advanced": 0.0, - "land_area_value": 2.340996281197352, + "land_area_value": 2.3409962811973519, "land_fixed": 0.0, "land_per_acre": 0.0, "land_per_watt": 0.0, @@ -122,7 +125,7 @@ "module_power": 540.0, "module_total": 232200.0, "module_type": 0.0, - "modulearray_area": 2842.105263157895, + "modulearray_area": 2842.1052631578947, "modulearray_power": 540.0, "om_capacity": [ 22.0 @@ -198,24 +201,24 @@ "step": 3600.0, "subtotal_direct": 680400.0, "system_capacity": 540.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 20.0, "total_direct_cost": 707616.0, "total_indirect_cost": 205200.0, "total_installed_cost": 948196.8, - "total_land_area": 2.340996281197352, - "total_module_area": 2842.105263157895, + "total_land_area": 2.3409962811973519, + "total_module_area": 2842.1052631578947, "tz": -7.0, - "ui_ac_capacity": 0.4695652173913044, - "ui_array_land_area_acres": 2.340996281197352, - "ui_array_land_area_ha": 0.9473690460319912, + "ui_ac_capacity": 0.46956521739130438, + "ui_array_land_area_acres": 2.3409962811973519, + "ui_array_land_area_ha": 0.9473690460319911, "ui_array_land_area_multiplier": 1.0, "ui_land_area_additional": 0.0, "ui_land_area_additional_units": 0.0, "ui_land_area_per_mw": 0.0, "ui_step_minutes": 60.0, - "ui_total_land_area_ha": 0.9473690460319912, - "ui_total_module_area": 2842.105263157895, + "ui_total_land_area_ha": 0.9473690460319911, + "ui_total_module_area": 2842.1052631578947, "ui_total_module_area_acres": 0.7022988843592055, "ui_total_module_area_ha": 0.28421052631578949, "ui_use_acre_per_mw": 0.0, @@ -228,6 +231,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -257,7 +263,7 @@ ], "desired_farm_size": 5.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -294,12 +300,12 @@ "specify_label": 0.0, "step": 3600.0, "system_capacity": 100.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 605500.0, "total_installed_cost_per_kw": 6055.0, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -9344,7 +9350,7 @@ "batt_cell_power_charge_max": 2.0, "batt_cell_power_discharge_max": 2.0, "batt_chem": 1.0, - "batt_computed_bank_capacity": 1200.54312, + "batt_computed_bank_capacity": 1200.5431199999999, "batt_computed_series": 126.0, "batt_computed_stacks_series": 0.0, "batt_computed_strings": 1064.0, @@ -10324,9 +10330,9 @@ "batt_minimum_modetime": 10.0, "batt_num_cells": 134064.0, "batt_power_charge_max_kwac": 312.64143749999996, - "batt_power_charge_max_kwdc": 300.13578, + "batt_power_charge_max_kwdc": 300.13577999999998, "batt_power_discharge_max_kwac": 288.1303487999999, - "batt_power_discharge_max_kwdc": 300.13578, + "batt_power_discharge_max_kwdc": 300.13577999999998, "batt_pv_ac_forecast": [ 0.0 ], @@ -10369,7 +10375,7 @@ "batt_ui_bank_voltage": 501.48, "batt_ui_cell_voltage": 3.98, "batt_ui_inverter_eff": 96.0, - "batt_ui_nominal_bank_power": 300.13578, + "batt_ui_nominal_bank_power": 300.13577999999998, "batt_unit_capacity": 400.0, "batt_unit_surface_area": 30.0, "batt_user_specified_weather_file_peak_shaving": "", @@ -10401,13 +10407,13 @@ 0.5 ] ], - "batt_volume": 14.64076975609756, - "battery_energy": 1200.54312, + "batt_volume": 14.640769756097559, + "battery_energy": 1200.5431199999999, "battery_indirect_cost_percent": 0.0, "battery_losses_shown": 0.0, "battery_per_kW": 667.0, "battery_per_kWh": 184.0, - "battery_power": 300.13578, + "battery_power": 300.13577999999998, "battery_thermal_shown": 0.0, "battery_total": 421090.49934, "battery_total_cost_lcos": 421090.49934, @@ -20535,7 +20541,7 @@ "om_batt_fixed_cost": [ 0.0 ], - "om_batt_nameplate": 1200.54312, + "om_batt_nameplate": 1200.5431199999999, "om_batt_replacement_cost": [ 280.0 ], @@ -20607,7 +20613,7 @@ "ui_step_minutes": 60.0 }, "Hybrid": { - "ac_nameplate": 469.565, + "ac_nameplate": 469.5652173913044, "analysis_period": 25.0, "analysis_period_warning": "", "annual_crit": 0.0, @@ -20677,7 +20683,7 @@ "const_per_principal4": 0.0, "const_per_principal5": 0.0, "const_per_principal_total": 1974787.29934, - "const_per_total1": 51838.16660767501, + "const_per_total1": 51838.166607675004, "const_per_total2": 0.0, "const_per_total3": 0.0, "const_per_total4": 0.0, @@ -20687,7 +20693,7 @@ "const_per_upfront_rate3": 0.0, "const_per_upfront_rate4": 0.0, "const_per_upfront_rate5": 0.0, - "construction_financing_cost": 51838.16660767501, + "construction_financing_cost": 51838.166607675004, "cost_debt_closing": 0.0, "cost_debt_fee": 2.75, "cost_other_financing": 0.0, @@ -47113,7 +47119,7 @@ "grid_outage": [ 0.0 ], - "host_nominal_discount_rate": 9.060000000000004, + "host_nominal_discount_rate": 9.060000000000003, "host_real_discount_rate": 6.4, "hybrid_capital_cost": 0.0, "ibi_fed_amount": 0.0, @@ -65356,7 +65362,7 @@ 33.5754 ], "loan_moratorium": 0.0, - "mera_cost1": 56956.50000000001, + "mera_cost1": 56956.52173913044, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -65378,7 +65384,7 @@ 156.2, 184.05 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_utility_bill": 0.0, "om_capacity": 0.0, "om_fixed": 0.0, @@ -65470,7 +65476,7 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 569.565, + "system_capacity": 569.5652173913044, "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", @@ -65482,7 +65488,7 @@ "ui_customgeneration_cost": 0.0, "ui_fuel_cell_capacity": 0.0, "ui_fuel_cell_cost": 0.0, - "ui_hyb_pv_capacity": 469.565, + "ui_hyb_pv_capacity": 469.5652173913044, "ui_pv_cost": 948196.8, "ui_wacc": 6.709740000000002, "ui_wind_cost": 605500.0, diff --git a/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Single Owner.json b/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Single Owner.json index 42464974cb..fa1797d316 100644 --- a/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Single Owner.json +++ b/deploy/runtime/defaults/PVWatts Wind Battery Hybrid_Single Owner.json @@ -30,7 +30,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -51,9 +51,12 @@ "contingency_percent": 3.0, "country": "-", "dc_ac_ratio": 1.3, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -203,7 +206,7 @@ "step": 3600.0, "subtotal_direct": 99000000.0, "system_capacity": 100000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 0.0, "total_direct_cost": 101970000.0, "total_indirect_cost": 5000000.0, @@ -227,7 +230,7 @@ "ui_step_minutes": 60.0, "ui_total_land_area_ha": 175.43871222814654, "ui_total_module_area": 526315.7894736842, - "ui_total_module_area_acres": 130.05534895540846, + "ui_total_module_area_acres": 130.05534895540843, "ui_total_module_area_ha": 52.63157894736842, "ui_use_acre_per_mw": 0.0, "use_specific_weather_file": 0.0, @@ -239,6 +242,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -268,7 +274,7 @@ ], "desired_farm_size": 10.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -305,12 +311,12 @@ "specify_label": 1.0, "step": 3600.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 317480000.0, "total_installed_cost_per_kw": 1587.4, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -1239,7 +1245,7 @@ "batt_Qexp": 0.04000005, "batt_Qexp_percent": 1.77778, "batt_Qfull": 2.25, - "batt_Qfull_flow": 478584.0, + "batt_Qfull_flow": 478583.99999999997, "batt_Qnom": 2.0000002500000004, "batt_Qnom_percent": 88.8889, "batt_Vcut": 2.706, @@ -10103,7 +10109,7 @@ "batt_dispatch_pvs_ki": 1.8, "batt_dispatch_pvs_kp": 1.2, "batt_dispatch_pvs_max_ramp": 10.0, - "batt_dispatch_pvs_nameplate": 276923.1, + "batt_dispatch_pvs_nameplate": 276923.07692307696, "batt_dispatch_pvs_nameplate_ac": 20000.0, "batt_dispatch_pvs_ramp_interval": 180.0, "batt_dispatch_pvs_short_forecast_enable": 0.0, @@ -12462,7 +12468,7 @@ ], "en_standalone_batt": 0.0, "grid_interconnection_limit_kwac": 20000.0, - "hybrid_system_capacity": 276923.1, + "hybrid_system_capacity": 276923.07692307696, "inflation_rate": 2.5, "lbl_fom_dispatch_message": "", "om_batt_capacity_cost": [ @@ -12542,7 +12548,7 @@ "wind_ui_step_minutes": 60.0 }, "Hybrid": { - "ac_nameplate": 76923.1, + "ac_nameplate": 76923.07692307692, "analysis_period": 25.0, "analysis_period_warning": "", "batt_power_discharge_max_kwac": 57600.0730368, @@ -12632,7 +12638,7 @@ ], "cp_capacity_payment_esc": 0.0, "cp_capacity_payment_type": 0.0, - "cp_system_nameplate": 276.9231, + "cp_system_nameplate": 276.92307692307699, "debt_message": "", "debt_option": 1.0, "debt_percent": 60.0, @@ -30966,7 +30972,7 @@ ] ], "loan_moratorium": 0.0, - "mera_cost1": 27692310.0, + "mera_cost1": 27692307.692307697, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -30974,7 +30980,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": 0.0, "om_fixed": 0.0, "om_production": 0.0, @@ -31053,7 +31059,7 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 276923.1, + "system_capacity": 276923.07692307696, "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", @@ -31065,7 +31071,7 @@ "ui_electricity_rate_option": 0.0, "ui_fuel_cell_capacity": 0.0, "ui_fuel_cell_cost": 0.0, - "ui_hyb_pv_capacity": 76923.1, + "ui_hyb_pv_capacity": 76923.07692307692, "ui_pv_cost": 112068500.0, "ui_system_nameplate_standalone": 0.0, "ui_wacc": 6.709740000000002, diff --git a/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Host Developer.json b/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Host Developer.json index f414b98190..d21e88a15f 100644 --- a/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Host Developer.json +++ b/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Host Developer.json @@ -30,7 +30,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -51,9 +51,12 @@ "contingency_percent": 4.0, "country": "-", "dc_ac_ratio": 1.15, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -89,7 +92,7 @@ "inverter_total": 27000.0, "inverterarray_power": 469.5652173913044, "is_advanced": 0.0, - "land_area_value": 2.340996281197352, + "land_area_value": 2.3409962811973519, "land_fixed": 0.0, "land_per_acre": 0.0, "land_per_watt": 0.0, @@ -122,7 +125,7 @@ "module_power": 540.0, "module_total": 232200.0, "module_type": 0.0, - "modulearray_area": 2842.105263157895, + "modulearray_area": 2842.1052631578947, "modulearray_power": 540.0, "om_capacity": [ 22.0 @@ -198,24 +201,24 @@ "step": 3600.0, "subtotal_direct": 680400.0, "system_capacity": 540.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 20.0, "total_direct_cost": 707616.0, "total_indirect_cost": 205200.0, "total_installed_cost": 948196.8, - "total_land_area": 2.340996281197352, - "total_module_area": 2842.105263157895, + "total_land_area": 2.3409962811973519, + "total_module_area": 2842.1052631578947, "tz": -7.0, - "ui_ac_capacity": 0.4695652173913044, - "ui_array_land_area_acres": 2.340996281197352, - "ui_array_land_area_ha": 0.9473690460319912, + "ui_ac_capacity": 0.46956521739130438, + "ui_array_land_area_acres": 2.3409962811973519, + "ui_array_land_area_ha": 0.9473690460319911, "ui_array_land_area_multiplier": 1.0, "ui_land_area_additional": 0.0, "ui_land_area_additional_units": 0.0, "ui_land_area_per_mw": 0.0, "ui_step_minutes": 60.0, - "ui_total_land_area_ha": 0.9473690460319912, - "ui_total_module_area": 2842.105263157895, + "ui_total_land_area_ha": 0.9473690460319911, + "ui_total_module_area": 2842.1052631578947, "ui_total_module_area_acres": 0.7022988843592055, "ui_total_module_area_ha": 0.28421052631578949, "ui_use_acre_per_mw": 0.0, @@ -228,6 +231,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -257,7 +263,7 @@ ], "desired_farm_size": 5.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -294,12 +300,12 @@ "specify_label": 0.0, "step": 3600.0, "system_capacity": 100.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 605500.0, "total_installed_cost_per_kw": 6055.0, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -27715,7 +27721,7 @@ "batt_cell_power_charge_max": 2.0, "batt_cell_power_discharge_max": 2.0, "batt_chem": 1.0, - "batt_computed_bank_capacity": 1200.54312, + "batt_computed_bank_capacity": 1200.5431199999999, "batt_computed_series": 126.0, "batt_computed_stacks_series": 0.0, "batt_computed_strings": 1064.0, @@ -37453,9 +37459,9 @@ "batt_minimum_SOC": 15.0, "batt_minimum_modetime": 10.0, "batt_num_cells": 134064.0, - "batt_power_charge_max_kwac": 300.13578, + "batt_power_charge_max_kwac": 300.13577999999998, "batt_power_charge_max_kwdc": 288.1303487999999, - "batt_power_discharge_max_kwac": 300.13578, + "batt_power_discharge_max_kwac": 300.13577999999998, "batt_power_discharge_max_kwdc": 312.64143749999996, "batt_pv_ac_forecast": [ 0.0 @@ -46290,8 +46296,8 @@ 0.5 ] ], - "batt_volume": 14.64076975609756, - "battery_energy": 1200.54312, + "batt_volume": 14.640769756097559, + "battery_energy": 1200.5431199999999, "battery_indirect_cost_percent": 0.0, "battery_losses_shown": 0.0, "battery_per_kW": 667.0, @@ -56423,7 +56429,7 @@ "om_batt_fixed_cost": [ 0.0 ], - "om_batt_nameplate": 1200.54312, + "om_batt_nameplate": 1200.5431199999999, "om_batt_replacement_cost": [ 280.0 ], @@ -56472,7 +56478,7 @@ "standalonebatt.cost.epc.nonfixed": 0.0, "standalonebatt.cost.epc.percent": 0.0, "standalonebatt.cost.epc.total": 0.0, - "standalonebatt.cost.installed_per_capacity": 1.430791666666667, + "standalonebatt.cost.installed_per_capacity": 1.4307916666666667, "standalonebatt.cost.plm.fixed": 0.0, "standalonebatt.cost.plm.nonfixed": 0.0, "standalonebatt.cost.plm.percent": 0.0, @@ -56480,7 +56486,7 @@ "standalonebatt.cost.sales_tax.percent": 0.0, "standalonebatt.cost.sales_tax.total": 0.0, "standalonebatt.cost.sales_tax.value": 5.0, - "system_capacity": 300.13578, + "system_capacity": 300.13577999999998, "total_direct_cost": 429431.7728924999, "total_indirect_cost": 0.0, "total_installed_cost": 429431.7728924999, @@ -56493,17 +56499,17 @@ "ui_copy_batt_discharge_percent_6": 25.0 }, "Hybrid": { - "ac_nameplate": 469.565, + "ac_nameplate": 469.5652173913044, "analysis_period": 25.0, "analysis_period_warning": "", "annual_crit": 0.0, "annual_peak": 274.231, "batt_minimum_outage_SOC": 10.0, - "batt_power_discharge_max_kwac": 300.13578, + "batt_power_discharge_max_kwac": 300.13577999999998, "batt_replacement_option": 1.0, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, - "battery_system_capacity": 300.13578, + "battery_system_capacity": 300.13577999999998, "battery_total_installed_cost": 429431.7728924999, "cbi_fed_amount": 0.0, "cbi_fed_deprbas_fed": 0.0, @@ -56563,7 +56569,7 @@ "const_per_principal4": 0.0, "const_per_principal5": 0.0, "const_per_principal_total": 4512560.345785, - "const_per_total1": 118454.70907685628, + "const_per_total1": 118454.70907685627, "const_per_total2": 0.0, "const_per_total3": 0.0, "const_per_total4": 0.0, @@ -56573,7 +56579,7 @@ "const_per_upfront_rate3": 0.0, "const_per_upfront_rate4": 0.0, "const_per_upfront_rate5": 0.0, - "construction_financing_cost": 118454.70907685628, + "construction_financing_cost": 118454.70907685627, "cost_debt_closing": 0.0, "cost_debt_fee": 2.75, "cost_other_financing": 0.0, @@ -101133,7 +101139,7 @@ 0.0, 0.0 ], - "host_nominal_discount_rate": 9.060000000000004, + "host_nominal_discount_rate": 9.060000000000003, "host_real_discount_rate": 6.4, "hybrid_capital_cost": 0.0, "ibi_fed_amount": 0.0, @@ -119376,7 +119382,7 @@ 33.5754 ], "loan_moratorium": 0.0, - "mera_cost1": 76956.5, + "mera_cost1": 76956.52173913043, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -119398,7 +119404,7 @@ 156.2, 184.05 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_thermal_bill": 0.0, "normalize_to_utility_bill": 0.0, "om_capacity": 0.0, @@ -119492,14 +119498,14 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 769.565, + "system_capacity": 769.5652173913044, "term_int_rate": 7.0, "term_tenor": 18.0, "thermal_1": 493720.8040000014, "thermal_10": 664864.1129999992, "thermal_11": 566944.4700000023, "thermal_12": 466793.0800000013, - "thermal_2": 485226.5400000012, + "thermal_2": 485226.54000000117, "thermal_3": 580314.9830000013, "thermal_4": 601906.9489999994, "thermal_5": 688796.4460000006, @@ -154605,13 +154611,13 @@ "tod_library": "Uniform Dispatch", "total_installed_cost": 4512560.345785, "ui_annual_load": 0.0, - "ui_battery_capacity": 300.13578, + "ui_battery_capacity": 300.13577999999998, "ui_battery_cost": 429431.7728924999, "ui_customgeneration_capacity": 0.0, "ui_customgeneration_cost": 0.0, "ui_fuel_cell_capacity": 200.0, "ui_fuel_cell_cost": 2100000.0, - "ui_hyb_pv_capacity": 469.565, + "ui_hyb_pv_capacity": 469.5652173913044, "ui_pv_cost": 948196.8, "ui_wacc": 6.709740000000002, "ui_wind_cost": 605500.0, diff --git a/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Single Owner.json b/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Single Owner.json index e7d51fc64e..56e3bfa1b3 100644 --- a/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Single Owner.json +++ b/deploy/runtime/defaults/PVWatts Wind FuelCell Battery Hybrid_Single Owner.json @@ -30,7 +30,7 @@ 0.2 ], "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -51,9 +51,12 @@ "contingency_percent": 3.0, "country": "-", "dc_ac_ratio": 1.4, - "degradation": [ + "dc_degradation": [ 0.5 ], + "degradation": [ + 0.0 + ], "elev": 358.0, "en_snowloss": 0.0, "en_user_spec_losses": 0.0, @@ -203,7 +206,7 @@ "step": 3600.0, "subtotal_direct": 99000000.0, "system_capacity": 100000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tilt": 0.0, "total_direct_cost": 101970000.0, "total_indirect_cost": 5000000.0, @@ -227,7 +230,7 @@ "ui_step_minutes": 60.0, "ui_total_land_area_ha": 175.43871222814654, "ui_total_module_area": 526315.7894736842, - "ui_total_module_area_acres": 130.05534895540846, + "ui_total_module_area_acres": 130.05534895540843, "ui_total_module_area_ha": 52.63157894736842, "ui_use_acre_per_mw": 0.0, "use_specific_weather_file": 0.0, @@ -239,6 +242,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -268,7 +274,7 @@ ], "desired_farm_size": 10.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -305,12 +311,12 @@ "specify_label": 1.0, "step": 3600.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 317480000.0, "total_installed_cost_per_kw": 1587.4, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -19612,7 +19618,7 @@ "batt_Qexp": 0.04000005, "batt_Qexp_percent": 1.77778, "batt_Qfull": 2.25, - "batt_Qfull_flow": 478584.0, + "batt_Qfull_flow": 478583.99999999997, "batt_Qnom": 2.0000002500000004, "batt_Qnom_percent": 88.8889, "batt_Vcut": 2.706, @@ -28476,7 +28482,7 @@ "batt_dispatch_pvs_ki": 1.8, "batt_dispatch_pvs_kp": 1.2, "batt_dispatch_pvs_max_ramp": 10.0, - "batt_dispatch_pvs_nameplate": 271628.6, + "batt_dispatch_pvs_nameplate": 271628.5714285714, "batt_dispatch_pvs_nameplate_ac": 20000.0, "batt_dispatch_pvs_ramp_interval": 180.0, "batt_dispatch_pvs_short_forecast_enable": 0.0, @@ -30835,7 +30841,7 @@ ], "en_standalone_batt": 0.0, "grid_interconnection_limit_kwac": 20000.0, - "hybrid_system_capacity": 271628.6, + "hybrid_system_capacity": 271628.5714285714, "inflation_rate": 2.5, "lbl_fom_dispatch_message": "", "om_batt_capacity_cost": [ @@ -30915,7 +30921,7 @@ "wind_ui_step_minutes": 60.0 }, "Hybrid": { - "ac_nameplate": 71428.6, + "ac_nameplate": 71428.57142857144, "analysis_period": 25.0, "analysis_period_warning": "", "batt_power_discharge_max_kwac": 57600.0730368, @@ -31005,7 +31011,7 @@ ], "cp_capacity_payment_esc": 0.0, "cp_capacity_payment_type": 0.0, - "cp_system_nameplate": 271.62859999999997, + "cp_system_nameplate": 271.62857142857146, "debt_message": "", "debt_option": 1.0, "debt_percent": 60.0, @@ -49342,7 +49348,7 @@ ] ], "loan_moratorium": 0.0, - "mera_cost1": 27162860.0, + "mera_cost1": 27162857.142857147, "mera_cost2": 0.0, "mera_cost3": 0.0, "mera_name1": "Replacement Reserve 1", @@ -49350,7 +49356,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": 0.0, "om_fixed": 0.0, "om_production": 0.0, @@ -49429,7 +49435,7 @@ "state_tax_rate": [ 7.0 ], - "system_capacity": 271628.6, + "system_capacity": 271628.5714285714, "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", @@ -49441,7 +49447,7 @@ "ui_electricity_rate_option": 0.0, "ui_fuel_cell_capacity": 200.0, "ui_fuel_cell_cost": 2100000.0, - "ui_hyb_pv_capacity": 71428.6, + "ui_hyb_pv_capacity": 71428.57142857144, "ui_pv_cost": 112068500.0, "ui_system_nameplate_standalone": 0.0, "ui_wacc": 6.709740000000002, diff --git a/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Host Developer.json b/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Host Developer.json index d342da7af7..24d1b8f9d5 100644 --- a/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Host Developer.json +++ b/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Host Developer.json @@ -17,9 +17,9 @@ "6par_imp": 12.82, "6par_is_bifacial": 1.0, "6par_isc": 13.71, - "6par_module_length": 2.277235165721802, + "6par_module_length": 2.2772351657218015, "6par_module_name": "Aptos Solar Technology LLC DNA-144-BF10-530W (from CEC database)", - "6par_module_width": 1.1329528187670657, + "6par_module_width": 1.1329528187670655, "6par_mounting": 0.0, "6par_mpeff": 20.571627906976745, "6par_nser": 72.0, @@ -366,9 +366,9 @@ 5.0 ] ], - "alpha_sc_calc": 0.04, + "alpha_sc_calc": 0.039999999999999997, "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -456,7 +456,7 @@ "engr_fixed": 0.0, "engr_per_watt": 0.3, "engr_percent": 0.0, - "engr_total": 167185.62000000006, + "engr_total": 167185.62000000003, "file_name": "phoenix_az_33.450495_-111.983688_psmv3_60_tmy.csv", "gamma_pmp_calc": -1.7886207600000004, "gcr_option": 1.0, @@ -701,8 +701,8 @@ "inv_cec_cg_c1": -0.000051, "inv_cec_cg_c2": 0.000984, "inv_cec_cg_c3": -0.001508, - "inv_cec_cg_eff_cec": 96.60945631544225, - "inv_cec_cg_eff_euro": 96.18210492215684, + "inv_cec_cg_eff_cec": 96.60945631544223, + "inv_cec_cg_eff_euro": 96.18210492215683, "inv_cec_cg_filename": "", "inv_cec_cg_idcmax": 18.0, "inv_cec_cg_mppt_hi": 480.0, @@ -2577,7 +2577,7 @@ "inv_snl_c2": -0.000791432, "inv_snl_c3": -0.000320828, "inv_snl_eff_cec": 98.69094035671238, - "inv_snl_eff_euro": 98.57668151849669, + "inv_snl_eff_euro": 98.57668151849667, "inv_snl_idcmax": 213.33, "inv_snl_mppt_hi": 1300.0, "inv_snl_mppt_low": 860.0, @@ -2701,7 +2701,7 @@ "sd11par_AMa4": -0.000091, "sd11par_Egref": 1.08583, "sd11par_Il": 5.90905, - "sd11par_Imp0": 5.506004749133028, + "sd11par_Imp0": 5.5060047491330279, "sd11par_Io": 3.63865e-12, "sd11par_Isc0": 5.90285, "sd11par_Pmp0": 322.305, @@ -2763,7 +2763,7 @@ "snl_c7": -0.093, "snl_dtc": 3.0, "snl_fd": 1.0, - "snl_imp_temp_1": -0.0021202945926680658, + "snl_imp_temp_1": -0.0021202945926680654, "snl_impo": 5.58, "snl_isco": 5.96, "snl_ixo": 5.9, @@ -2774,7 +2774,7 @@ "snl_module_length": 1.665142636532979, "snl_module_name": "SunPower SPR-305-WHT [2007 (E)]", "snl_module_structure": 0.0, - "snl_module_width": 0.9794956685488112, + "snl_module_width": 0.9794956685488111, "snl_n": 1.131, "snl_n_cells": 96.0, "snl_parallel_cells": 1.0, @@ -2786,14 +2786,14 @@ "snl_ref_imp": 5.579722612284382, "snl_ref_imp_temp_0": -0.038, "snl_ref_isc": 5.959701031499999, - "snl_ref_isc_temp_0": 0.05900000000000001, + "snl_ref_isc_temp_0": 0.059000000000000007, "snl_ref_isc_temp_1": 0.0035162236085849996, "snl_ref_pmp": 305.2105300228098, "snl_ref_pmp_temp_0": -0.37803722005446979, "snl_ref_pmp_temp_1": -1.153809403011743, "snl_ref_vmp": 54.69994679499923, "snl_ref_vmp_temp_0": -0.34003722005446976, - "snl_ref_vmp_temp_1": -0.1860001784529894, + "snl_ref_vmp_temp_1": -0.18600017845298939, "snl_ref_voc": 64.19986006248614, "snl_ref_voc_temp_0": -0.2757022666099982, "snl_sandia_notes": "Source: Sandia National Laboratories Updated 9/25/2012 Module Database", @@ -2829,9 +2829,9 @@ "spe_eff4": 20.5, "spe_fd": 1.0, "spe_is_bifacial": 1.0, - "spe_module_length": 2.277235165721802, + "spe_module_length": 2.2772351657218015, "spe_module_structure": 1.0, - "spe_module_width": 1.1329528187670657, + "spe_module_width": 1.1329528187670655, "spe_power": 528.9, "spe_rad0": 200.0, "spe_rad1": 400.0, @@ -2929,7 +2929,7 @@ "subarray1_tilt_eq_lat": 0.0, "subarray1_track_mode": 0.0, "subarray1_tracking_loss": 0.0, - "subarray1_ui_length_side": 4.188555837039779, + "subarray1_ui_length_side": 2.0942779185198896, "subarray1_ui_nmodules": 1050.0, "subarray1_ui_nrows": 42.0, "subarray1_ui_row_spacing": 13.961852790132597, @@ -3015,7 +3015,7 @@ "subarray2_tilt_eq_lat": 0.0, "subarray2_track_mode": 0.0, "subarray2_tracking_loss": 0.0, - "subarray2_ui_length_side": 1.2319281873646409, + "subarray2_ui_length_side": 2.0942779185198896, "subarray2_ui_nmodules": 0.0, "subarray2_ui_nrows": 0.0, "subarray2_ui_row_spacing": 4.10642729121547, @@ -3194,7 +3194,7 @@ "subtotal_direct": 702179.604, "system_capacity": 557.2854, "total_direct_cost": 730266.78816, - "total_indirect_cost": 211768.45200000009, + "total_indirect_cost": 211768.45200000006, "total_installed_cost": 978548.579568, "total_inverter_capacity": 453.994, "total_land_area": 2.231359622027943, @@ -3206,7 +3206,7 @@ "tz": -7.0, "ui_ac_capacity": 0.453994, "ui_array_land_area_acres": 2.231359622027943, - "ui_array_land_area_ha": 0.9030005957094932, + "ui_array_land_area_ha": 0.9030005957094931, "ui_array_land_area_multiplier": 1.0, "ui_aspect_ratio": 1.7, "ui_chkbox_nmodx_eq_mod_per_string": 1.0, @@ -3214,7 +3214,7 @@ "ui_land_area_additional_units": 0.0, "ui_land_area_per_mw": 0.0, "ui_step_minutes": 60.0, - "ui_total_land_area_ha": 0.9030005957094932, + "ui_total_land_area_ha": 0.9030005957094931, "ui_total_module_area": 2709.0, "ui_total_module_area_acres": 0.6694078866083828, "ui_total_module_area_ha": 0.2709, @@ -3230,6 +3230,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -3259,7 +3262,7 @@ ], "desired_farm_size": 100.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -3296,12 +3299,12 @@ "specify_label": 0.0, "step": 3600.0, "system_capacity": 100.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 635775.0, "total_installed_cost_per_kw": 6357.75, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -12346,7 +12349,7 @@ "batt_cell_power_charge_max": 2.0, "batt_cell_power_discharge_max": 2.0, "batt_chem": 1.0, - "batt_computed_bank_capacity": 1200.54312, + "batt_computed_bank_capacity": 1200.5431199999999, "batt_computed_series": 126.0, "batt_computed_stacks_series": 0.0, "batt_computed_strings": 1064.0, @@ -13326,9 +13329,9 @@ "batt_minimum_modetime": 10.0, "batt_num_cells": 134064.0, "batt_power_charge_max_kwac": 312.64143749999996, - "batt_power_charge_max_kwdc": 300.13578, + "batt_power_charge_max_kwdc": 300.13577999999998, "batt_power_discharge_max_kwac": 288.1303487999999, - "batt_power_discharge_max_kwdc": 300.13578, + "batt_power_discharge_max_kwdc": 300.13577999999998, "batt_pv_ac_forecast": [ 0.0 ], @@ -13371,7 +13374,7 @@ "batt_ui_bank_voltage": 501.48, "batt_ui_cell_voltage": 3.98, "batt_ui_inverter_eff": 96.0, - "batt_ui_nominal_bank_power": 300.13578, + "batt_ui_nominal_bank_power": 300.13577999999998, "batt_unit_capacity": 400.0, "batt_unit_surface_area": 30.0, "batt_user_specified_weather_file_peak_shaving": "", @@ -13403,13 +13406,13 @@ 0.5 ] ], - "batt_volume": 14.64076975609756, - "battery_energy": 1200.54312, + "batt_volume": 14.640769756097559, + "battery_energy": 1200.5431199999999, "battery_indirect_cost_percent": 0.0, "battery_losses_shown": 0.0, "battery_per_kW": 667.0, "battery_per_kWh": 184.0, - "battery_power": 300.13578, + "battery_power": 300.13577999999998, "battery_thermal_shown": 0.0, "battery_total": 421090.49934, "battery_total_cost_lcos": 421090.49934, @@ -23536,7 +23539,7 @@ "om_batt_fixed_cost": [ 0.0 ], - "om_batt_nameplate": 1200.54312, + "om_batt_nameplate": 1200.5431199999999, "om_batt_replacement_cost": [ 280.0 ], @@ -23669,12 +23672,12 @@ "const_per_percent4": 0.0, "const_per_percent5": 0.0, "const_per_percent_total": 100.0, - "const_per_principal1": 2035414.078908, + "const_per_principal1": 2035414.0789080002, "const_per_principal2": 0.0, "const_per_principal3": 0.0, "const_per_principal4": 0.0, "const_per_principal5": 0.0, - "const_per_principal_total": 2035414.078908, + "const_per_principal_total": 2035414.0789080002, "const_per_total1": 53429.619571335, "const_per_total2": 0.0, "const_per_total3": 0.0, @@ -50111,7 +50114,7 @@ "grid_outage": [ 0.0 ], - "host_nominal_discount_rate": 9.060000000000004, + "host_nominal_discount_rate": 9.060000000000003, "host_real_discount_rate": 6.4, "hybrid_capital_cost": 0.0, "ibi_fed_amount": 0.0, @@ -68376,7 +68379,7 @@ 156.2, 184.05 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_utility_bill": 0.0, "om_capacity": 0.0, "om_fixed": 0.0, @@ -68434,7 +68437,7 @@ "ppa_soln_mode": 1.0, "prop_tax_assessed_decline": 0.0, "prop_tax_cost_assessed_percent": 100.0, - "property_assessed_value": 2035414.078908, + "property_assessed_value": 2035414.0789080002, "property_tax_rate": 0.0, "ptc_fed_amount": [ 0.0 @@ -68473,7 +68476,7 @@ "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", - "total_installed_cost": 2035414.078908, + "total_installed_cost": 2035414.0789080002, "total_inverter_capacity": 453.994, "ui_annual_load": 0.0, "ui_battery_capacity": 288.1303487999999, diff --git a/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Single Owner.json b/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Single Owner.json index 01ff2a4434..fc2a42798e 100644 --- a/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Single Owner.json +++ b/deploy/runtime/defaults/Photovoltaic Wind Battery Hybrid_Single Owner.json @@ -17,9 +17,9 @@ "6par_imp": 12.82, "6par_is_bifacial": 1.0, "6par_isc": 13.71, - "6par_module_length": 2.277235165721802, + "6par_module_length": 2.2772351657218015, "6par_module_name": "Aptos Solar Technology LLC DNA-144-BF10-530W (from CEC database)", - "6par_module_width": 1.1329528187670657, + "6par_module_width": 1.1329528187670655, "6par_mounting": 0.0, "6par_mpeff": 20.571627906976745, "6par_nser": 72.0, @@ -366,9 +366,9 @@ 5.0 ] ], - "alpha_sc_calc": 0.04, + "alpha_sc_calc": 0.039999999999999997, "analysis_period": 25.0, - "annual_albedo": 0.1839506853933204, + "annual_albedo": 0.18395068539332039, "annual_beam": 7.335643835616439, "annual_diffuse": 1.3484328767123289, "annual_global": 5.794761643835617, @@ -381,7 +381,7 @@ "bos_equip_fixed": 0.0, "bos_equip_perarea": 0.0, "bos_equip_perwatt": 0.32, - "bos_equip_total": 31999773.49632001, + "bos_equip_total": 31999773.496320007, "calculate_bifacial_electrical_mismatch": 1.0, "calculate_rack_shading": 0.0, "calculated_dcac_ratio": 1.329498131855772, @@ -408,8 +408,8 @@ "cec_i_sc_ref": 13.71, "cec_is_bifacial": 1.0, "cec_material": "Mono-c-Si", - "cec_module_length": 2.277235165721802, - "cec_module_width": 1.1329528187670657, + "cec_module_length": 2.2772351657218015, + "cec_module_width": 1.1329528187670655, "cec_mounting_config": 0.0, "cec_mounting_orientation": 0.0, "cec_n_s": 72.0, @@ -1340,8 +1340,8 @@ "inv_cec_cg_c1": -0.000051, "inv_cec_cg_c2": 0.000984, "inv_cec_cg_c3": -0.001508, - "inv_cec_cg_eff_cec": 96.60945631544225, - "inv_cec_cg_eff_euro": 96.18210492215684, + "inv_cec_cg_eff_cec": 96.60945631544223, + "inv_cec_cg_eff_euro": 96.18210492215683, "inv_cec_cg_filename": "", "inv_cec_cg_idcmax": 18.0, "inv_cec_cg_mppt_hi": 480.0, @@ -3267,7 +3267,7 @@ "inverter_model": 0.0, "inverter_num_units": 30.0, "inverter_power": 2507.194, - "inverter_total": 2999978.765280001, + "inverter_total": 2999978.7652800006, "inverterarray_power": 75215.81999999999, "irrad_mode": 0.0, "is_advanced": 0.0, @@ -3296,13 +3296,13 @@ "module_area": 2.58, "module_aspect_ratio": 2.01, "module_costunits": 0.0, - "module_length": 2.277235165721802, + "module_length": 2.2772351657218015, "module_model": 1.0, "module_name": "Aptos Solar Technology LLC DNA-144-BF10-530W", "module_num_units": 188412.0, "module_power": 0.5307480000000001, "module_total": 33999759.33984001, - "module_width": 1.1329528187670657, + "module_width": 1.1329528187670655, "modulearray_area": 486102.96, "modulearray_power": 99999.29217600002, "mppt_hi_inverter": 1500.0, @@ -3350,7 +3350,7 @@ "sd11par_AMa4": -0.000091, "sd11par_Egref": 1.08583, "sd11par_Il": 5.90905, - "sd11par_Imp0": 5.506004749133028, + "sd11par_Imp0": 5.5060047491330279, "sd11par_Io": 3.63865e-12, "sd11par_Isc0": 5.90285, "sd11par_Pmp0": 322.305, @@ -3412,7 +3412,7 @@ "snl_c7": -0.093, "snl_dtc": 3.0, "snl_fd": 1.0, - "snl_imp_temp_1": -0.0021202945926680658, + "snl_imp_temp_1": -0.0021202945926680654, "snl_impo": 5.58, "snl_isco": 5.96, "snl_ixo": 5.9, @@ -3423,7 +3423,7 @@ "snl_module_length": 1.665142636532979, "snl_module_name": "SunPower SPR-305-WHT [2007 (E)]", "snl_module_structure": 0.0, - "snl_module_width": 0.9794956685488112, + "snl_module_width": 0.9794956685488111, "snl_n": 1.131, "snl_n_cells": 96.0, "snl_parallel_cells": 1.0, @@ -3435,14 +3435,14 @@ "snl_ref_imp": 5.579722612284382, "snl_ref_imp_temp_0": -0.038, "snl_ref_isc": 5.959701031499999, - "snl_ref_isc_temp_0": 0.05900000000000001, + "snl_ref_isc_temp_0": 0.059000000000000007, "snl_ref_isc_temp_1": 0.0035162236085849996, "snl_ref_pmp": 305.2105300228098, "snl_ref_pmp_temp_0": -0.37803722005446979, "snl_ref_pmp_temp_1": -1.153809403011743, "snl_ref_vmp": 54.69994679499923, "snl_ref_vmp_temp_0": -0.34003722005446976, - "snl_ref_vmp_temp_1": -0.1860001784529894, + "snl_ref_vmp_temp_1": -0.18600017845298939, "snl_ref_voc": 64.19986006248614, "snl_ref_voc_temp_0": -0.2757022666099982, "snl_sandia_notes": "Source: Sandia National Laboratories Updated 9/25/2012 Module Database", @@ -3478,9 +3478,9 @@ "spe_eff4": 20.5, "spe_fd": 1.0, "spe_is_bifacial": 1.0, - "spe_module_length": 2.277235165721802, + "spe_module_length": 2.2772351657218015, "spe_module_structure": 1.0, - "spe_module_width": 1.1329528187670657, + "spe_module_width": 1.1329528187670655, "spe_power": 528.9, "spe_rad0": 200.0, "spe_rad1": 400.0, @@ -3504,7 +3504,7 @@ "subarray1_diodeconn_loss": 0.5, "subarray1_electrical_mismatch": 0.0, "subarray1_gcr": 0.3, - "subarray1_land_area": 1620343.2000000005, + "subarray1_land_area": 1620343.2000000003, "subarray1_mismatch_loss": 2.0, "subarray1_mod_orient": 0.0, "subarray1_modules_per_string": 28.0, @@ -3578,7 +3578,7 @@ "subarray1_tilt_eq_lat": 0.0, "subarray1_track_mode": 1.0, "subarray1_tracking_loss": 0.0, - "subarray1_ui_length_side": 4.554470331443603, + "subarray1_ui_length_side": 2.2772351657218015, "subarray1_ui_nmodules": 188412.0, "subarray1_ui_nrows": 6729.0, "subarray1_ui_row_spacing": 15.181567771478676, @@ -3664,7 +3664,7 @@ "subarray2_tilt_eq_lat": 0.0, "subarray2_track_mode": 1.0, "subarray2_tracking_loss": 0.0, - "subarray2_ui_length_side": 2.277235165721802, + "subarray2_ui_length_side": 2.2772351657218015, "subarray2_ui_nmodules": 0.0, "subarray2_ui_nrows": 0.0, "subarray2_ui_row_spacing": 7.590783885739338, @@ -3750,7 +3750,7 @@ "subarray3_tilt_eq_lat": 0.0, "subarray3_track_mode": 1.0, "subarray3_tracking_loss": 0.0, - "subarray3_ui_length_side": 2.277235165721802, + "subarray3_ui_length_side": 2.2772351657218015, "subarray3_ui_nmodules": 0.0, "subarray3_ui_nrows": 0.0, "subarray3_ui_row_spacing": 7.590783885739338, @@ -3836,13 +3836,13 @@ "subarray4_tilt_eq_lat": 0.0, "subarray4_track_mode": 1.0, "subarray4_tracking_loss": 0.0, - "subarray4_ui_length_side": 2.277235165721802, + "subarray4_ui_length_side": 2.2772351657218015, "subarray4_ui_nmodules": 0.0, "subarray4_ui_nrows": 0.0, "subarray4_ui_row_spacing": 7.590783885739338, "subtotal_direct": 98999299.25424, "system_capacity": 99999.29217600002, - "total_direct_cost": 101969278.2318672, + "total_direct_cost": 101969278.23186721, "total_indirect_cost": 4999964.6088000009, "total_installed_cost": 112067706.75226057, "total_inverter_capacity": 75215.82, @@ -3885,6 +3885,9 @@ "Wind": { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -3914,7 +3917,7 @@ ], "desired_farm_size": 10.0, "elec_eff_loss": 1.91, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "env_degrad_loss": 1.8, "env_env_loss": 0.4, @@ -3951,12 +3954,12 @@ "specify_label": 1.0, "step": 3600.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_installed_cost": 317480000.0, "total_installed_cost_per_kw": 1587.4, "turb_generic_loss": 1.7, "turb_hysteresis_loss": 0.4, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turbine_cost_fixed": 0.0, @@ -4885,7 +4888,7 @@ "batt_Qexp": 0.04000005, "batt_Qexp_percent": 1.77778, "batt_Qfull": 2.25, - "batt_Qfull_flow": 478584.0, + "batt_Qfull_flow": 478583.99999999997, "batt_Qnom": 2.0000002500000004, "batt_Qnom_percent": 88.8889, "batt_Vcut": 2.706, @@ -16254,7 +16257,7 @@ "const_per_principal4": 0.0, "const_per_principal5": 0.0, "const_per_principal_total": 504007801.16754057, - "const_per_total1": 13230204.78064794, + "const_per_total1": 13230204.780647941, "const_per_total2": 0.0, "const_per_total3": 0.0, "const_per_total4": 0.0, @@ -16264,7 +16267,7 @@ "const_per_upfront_rate3": 0.0, "const_per_upfront_rate4": 0.0, "const_per_upfront_rate5": 0.0, - "construction_financing_cost": 13230204.78064794, + "construction_financing_cost": 13230204.780647941, "cost_debt_closing": 0.0, "cost_debt_fee": 2.75, "cost_other_financing": 0.0, @@ -34619,7 +34622,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": 0.0, "om_fixed": 0.0, "om_production": 0.0, diff --git a/deploy/runtime/defaults/Wind Power_All Equity Partnership Flip.json b/deploy/runtime/defaults/Wind Power_All Equity Partnership Flip.json index 19bfe02466..a79432479a 100644 --- a/deploy/runtime/defaults/Wind Power_All Equity Partnership Flip.json +++ b/deploy/runtime/defaults/Wind Power_All Equity Partnership Flip.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -30,7 +33,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -11170,7 +11173,7 @@ "dscr_reserve_months": 6.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -20693,7 +20696,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mera_cost1": 0.0, "mera_cost2": 0.0, "mera_cost3": 0.0, @@ -20702,7 +20705,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": [ 40.0 ], @@ -20724,7 +20727,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "pbi_fed_amount": [ 0.0 ], @@ -20814,7 +20817,7 @@ ], "step": 0.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tax_investor_equity_percent": 60.0, "tax_investor_postflip_cash_percent": 10.0, "tax_investor_postflip_tax_percent": 10.0, @@ -20830,7 +20833,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/defaults/Wind Power_Commercial.json b/deploy/runtime/defaults/Wind Power_Commercial.json index 88b1ff7313..1981e2367b 100644 --- a/deploy/runtime/defaults/Wind Power_Commercial.json +++ b/deploy/runtime/defaults/Wind Power_Commercial.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -32,7 +35,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -1696,7 +1699,7 @@ "desired_farm_size": 5.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -28123,7 +28126,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mpeak": [ 234.676, 173.422, @@ -28138,7 +28141,7 @@ 156.2, 184.05 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_utility_bill": 0.0, "om_capacity": [ 39.0 @@ -28161,7 +28164,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "pbi_fed_amount": [ 0.0 ], @@ -28253,7 +28256,7 @@ ], "step": 0.0, "system_capacity": 100.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_10yr_uncert": 12.0852, "total_20yr_uncert": 12.0852, "total_installed_cost": 605500.0, @@ -28263,7 +28266,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/defaults/Wind Power_Leveraged Partnership Flip.json b/deploy/runtime/defaults/Wind Power_Leveraged Partnership Flip.json index f5373eaa84..2ad3c3ded4 100644 --- a/deploy/runtime/defaults/Wind Power_Leveraged Partnership Flip.json +++ b/deploy/runtime/defaults/Wind Power_Leveraged Partnership Flip.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -30,7 +33,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -11178,7 +11181,7 @@ "dscr_reserve_months": 6.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -20702,7 +20705,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mera_cost1": 0.0, "mera_cost2": 0.0, "mera_cost3": 0.0, @@ -20711,7 +20714,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": [ 40.0 ], @@ -20733,7 +20736,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "payment_option": 0.0, "pbi_fed_amount": [ 0.0 @@ -20823,7 +20826,7 @@ ], "step": 0.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tax_investor_equity_percent": 98.0, "tax_investor_postflip_cash_percent": 10.0, "tax_investor_postflip_tax_percent": 10.0, @@ -20841,7 +20844,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/defaults/Wind Power_Merchant Plant.json b/deploy/runtime/defaults/Wind Power_Merchant Plant.json index d1b8243007..a34debe726 100644 --- a/deploy/runtime/defaults/Wind Power_Merchant Plant.json +++ b/deploy/runtime/defaults/Wind Power_Merchant Plant.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -30,7 +33,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -1785,7 +1788,7 @@ "dscr_reserve_months": 6.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -10671,7 +10674,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mera_cost1": 0.0, "mera_cost2": 0.0, "mera_cost3": 0.0, @@ -667803,7 +667806,7 @@ ], "mp_error_msg": "", "mp_market_percent_gen": 100.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": [ 40.0 ], @@ -667825,7 +667828,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "payment_option": 0.0, "pbi_fed_amount": [ 0.0 @@ -667909,7 +667912,7 @@ ], "step": 0.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "term_int_rate": 7.0, "term_tenor": 18.0, "total_10yr_uncert": 12.0852, @@ -667921,7 +667924,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/defaults/Wind Power_Residential.json b/deploy/runtime/defaults/Wind Power_Residential.json index a312049ec9..560e1c47f8 100644 --- a/deploy/runtime/defaults/Wind Power_Residential.json +++ b/deploy/runtime/defaults/Wind Power_Residential.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -32,7 +35,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -1686,7 +1689,7 @@ "desired_farm_size": 5.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -28115,7 +28118,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mortgage": 1.0, "mpeak": [ 1.85407, @@ -28131,7 +28134,7 @@ 1.71415, 1.87435 ], - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "normalize_to_utility_bill": 0.0, "om_capacity": [ 39.0 @@ -28154,7 +28157,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "pbi_fed_amount": [ 0.0 ], @@ -28246,7 +28249,7 @@ ], "step": 0.0, "system_capacity": 20.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "total_10yr_uncert": 12.0852, "total_20yr_uncert": 12.0852, "total_installed_cost": 161260.0, @@ -28256,7 +28259,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, @@ -28269,7 +28272,7 @@ "ui_annual_load": 0.0, "ui_net_capital_cost": 161260.0, "ui_step_minutes": 60.0, - "ui_wacc": 6.2388, + "ui_wacc": 6.2387999999999999, "ur_annual_min_charge": 0.0, "ur_billing_demand_is_shown": 0.0, "ur_billing_demand_lookback_percentages": [ diff --git a/deploy/runtime/defaults/Wind Power_Sale Leaseback.json b/deploy/runtime/defaults/Wind Power_Sale Leaseback.json index f6657f9d79..b95d0dd882 100644 --- a/deploy/runtime/defaults/Wind Power_Sale Leaseback.json +++ b/deploy/runtime/defaults/Wind Power_Sale Leaseback.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -30,7 +33,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -11165,7 +11168,7 @@ "dscr_reserve_months": 6.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -20688,7 +20691,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mera_cost1": 0.0, "mera_cost2": 0.0, "mera_cost3": 0.0, @@ -20697,7 +20700,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": [ 40.0 ], @@ -20719,7 +20722,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "pbi_fed_amount": [ 0.0 ], @@ -20811,7 +20814,7 @@ ], "step": 0.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "tax_investor_required_lease_reserve": 6.0, "tod_library": "Uniform Dispatch", "total_10yr_uncert": 12.0852, @@ -20823,7 +20826,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/defaults/Wind Power_Single Owner.json b/deploy/runtime/defaults/Wind Power_Single Owner.json index f2cbdaabbc..2f9d95f84a 100644 --- a/deploy/runtime/defaults/Wind Power_Single Owner.json +++ b/deploy/runtime/defaults/Wind Power_Single Owner.json @@ -1,6 +1,9 @@ { "a_error_test_number": 17.345, "a_error_test_string": "\"default err msg\"", + "ac_degradation": [ + 0.64 + ], "adjust": 0.0, "adjust_constant": 0.0, "adjust_en_periods": 0.0, @@ -30,7 +33,7 @@ "avail_loss_total": 5.501168499999998, "avail_turb_loss": 3.58, "avail_turb_uncert": 2.3, - "avail_uncert_total": 2.502718521927706, + "avail_uncert_total": 2.5027185219277059, "batt_salvage_percentage": 0.0, "batt_salvage_value": 0.0, "bos_cost_fixed": 0.0, @@ -11179,7 +11182,7 @@ "dscr_reserve_months": 6.0, "elec_eff_loss": 1.91, "elec_eff_uncert": 1.0, - "elec_loss_total": 2.008089999999996, + "elec_loss_total": 2.0080899999999959, "elec_parasitic_loss": 0.1, "elec_parasitic_uncert": 0.05, "elec_uncert_total": 1.0012492197250394, @@ -20707,7 +20710,7 @@ "meas_data_uncert": 0.3, "meas_dir_uncert": 0.0, "meas_speed_uncert": 2.0, - "meas_uncert_total": 2.044504830026088, + "meas_uncert_total": 2.0445048300260875, "mera_cost1": 0.0, "mera_cost2": 0.0, "mera_cost3": 0.0, @@ -20716,7 +20719,7 @@ "mera_name3": "Replacement Reserve 3", "months_receivables_reserve": 0.0, "months_working_reserve": 6.0, - "nominal_discount_rate": 9.060000000000004, + "nominal_discount_rate": 9.060000000000003, "om_capacity": [ 40.0 ], @@ -20738,7 +20741,7 @@ "ops_loss_total": 2.803467160000006, "ops_strategies_loss": 0.0, "ops_strategies_uncert": 0.0, - "ops_uncert_total": 2.503197954617254, + "ops_uncert_total": 2.5031979546172535, "payment_option": 0.0, "pbi_fed_amount": [ 0.0 @@ -20831,7 +20834,7 @@ ], "step": 0.0, "system_capacity": 200000.0, - "system_use_lifetime_output": 0.0, + "system_use_lifetime_output": 1.0, "term_int_rate": 7.0, "term_tenor": 18.0, "tod_library": "Uniform Dispatch", @@ -20844,7 +20847,7 @@ "turb_generic_uncert": 3.72, "turb_hysteresis_loss": 0.4, "turb_hysteresis_uncert": 1.0, - "turb_loss_total": 3.954496384119999, + "turb_loss_total": 3.9544963841199989, "turb_perf_loss": 1.1, "turb_specific_loss": 0.81, "turb_specific_uncert": 1.2, diff --git a/deploy/runtime/macros/Solar Resource File Converter.lk b/deploy/runtime/macros/Solar Resource File Converter.lk index f51eafd0d7..dcbdd08997 100644 --- a/deploy/runtime/macros/Solar Resource File Converter.lk +++ b/deploy/runtime/macros/Solar Resource File Converter.lk @@ -465,16 +465,16 @@ function solaranywhere_to_sam_csv( wf ) } else { - if ( strpos(lower(to_string(arr[i])),'global') > -1 ) { i_ghi = i; } - if ( strpos(lower(to_string(arr[i])),'direct') > -1 ) { i_dni = i; } - if ( strpos(lower(to_string(arr[i])),'diffuse') > -1 ) { i_dhi = i; } - if ( strpos(lower(to_string(arr[i])),'deg c') > -1 ) { i_tdry = i; } // avoid 'ambient' because AmbientTemperatureObservationType - if ( strpos(lower(to_string(arr[i])),'m/s') > -1 ) { i_wspd = i; } // avoid 'wind' because WindSpeedObservationType - if ( strpos(lower(to_string(arr[i])),'humid') > -1 ) { i_rh = i; } - if ( strpos(lower(to_string(arr[i])),'snow') > -1 ) { i_snow = i; } // snow depth in meters + if ( strpos(lower(to_string(arr[i])),'global horizontal irradiance') > -1 ) { i_ghi = i; } // avoid 'ghi' because clearsky + if ( strpos(lower(to_string(arr[i])),'direct normal irradiance') > -1 ) { i_dni = i; } + if ( strpos(lower(to_string(arr[i])),'diffuse horizontal irradiance') > -1 ) { i_dhi = i; } + if ( strpos(lower(to_string(arr[i])),'ambienttemperature (deg c)') > -1 ) { i_tdry = i; } // avoid 'ambient' because AmbientTemperatureObservationType + if ( strpos(lower(to_string(arr[i])),'windspeed (m/s)') > -1 ) { i_wspd = i; } // avoid 'wind' because WindSpeedObservationType, note wind-speed 100m + if ( strpos(lower(to_string(arr[i])),'relative humidity') > -1 ) { i_rh = i; } + if ( strpos(lower(to_string(arr[i])),'snow depth') > -1 ) { i_snow = i; } // snow depth in meters if ( strpos(lower(to_string(arr[i])),'albedo') > -1 ) { i_albedo = i; } - if ( strpos(lower(to_string(arr[i])),'10') > -1 ) { i_pm10 = i; } // Particulate Matter 10 (g/m3), PM not used by SAM but requested by CPR https://github.com/NatLabRockies/SAM/issues/554 - if ( strpos(lower(to_string(arr[i])),'2.5') > -1 ) { i_pm25 = i; } // Particulate Matter 2.5 (g/m3) + if ( strpos(lower(to_string(arr[i])),'matter 10') > -1 ) { i_pm10 = i; } // Particulate Matter 10 (g/m3), PM not used by SAM but requested by CPR https://github.com/NatLabRockies/SAM/issues/554 + if ( strpos(lower(to_string(arr[i])),'matter 2.5') > -1 ) { i_pm25 = i; } // Particulate Matter 2.5 (g/m3) } } // SAM CSV headers can be in any order: Year,Month,Day,Hour,Minute,GHI,DNI,DHI,Tdry,Tdew,RH,Pres,Wspd,Wdir,Albedo,Snow diff --git a/deploy/runtime/spreadsheets/community_solar.xlsx b/deploy/runtime/spreadsheets/community_solar.xlsx index 2aae6a1fdc..94b7182c60 100644 Binary files a/deploy/runtime/spreadsheets/community_solar.xlsx and b/deploy/runtime/spreadsheets/community_solar.xlsx differ diff --git a/deploy/runtime/spreadsheets/host_developer.xlsx b/deploy/runtime/spreadsheets/host_developer.xlsx index c009576e77..556ca9c846 100644 Binary files a/deploy/runtime/spreadsheets/host_developer.xlsx and b/deploy/runtime/spreadsheets/host_developer.xlsx differ diff --git a/deploy/runtime/spreadsheets/merchant_plant.xlsx b/deploy/runtime/spreadsheets/merchant_plant.xlsx index 0913972949..e330632ed6 100644 Binary files a/deploy/runtime/spreadsheets/merchant_plant.xlsx and b/deploy/runtime/spreadsheets/merchant_plant.xlsx differ diff --git a/deploy/runtime/spreadsheets/partnership_flip.xlsx b/deploy/runtime/spreadsheets/partnership_flip.xlsx index 4187556ada..077121c423 100644 Binary files a/deploy/runtime/spreadsheets/partnership_flip.xlsx and b/deploy/runtime/spreadsheets/partnership_flip.xlsx differ diff --git a/deploy/runtime/spreadsheets/sale_leaseback.xlsx b/deploy/runtime/spreadsheets/sale_leaseback.xlsx index decd37e613..7f65da2433 100644 Binary files a/deploy/runtime/spreadsheets/sale_leaseback.xlsx and b/deploy/runtime/spreadsheets/sale_leaseback.xlsx differ diff --git a/deploy/runtime/spreadsheets/single_owner.xlsx b/deploy/runtime/spreadsheets/single_owner.xlsx index b3b1335014..75d5c553c1 100644 Binary files a/deploy/runtime/spreadsheets/single_owner.xlsx and b/deploy/runtime/spreadsheets/single_owner.xlsx differ diff --git a/deploy/runtime/startup.lk b/deploy/runtime/startup.lk index 87845c94d1..11c0110ff7 100644 --- a/deploy/runtime/startup.lk +++ b/deploy/runtime/startup.lk @@ -121,7 +121,7 @@ configopt( 'Community Solar', { 'long_name'='Community Solar', 'short_name'='Com configopt( 'None', { 'long_name'='No Financial Model', 'short_name'='No financial', 'description'='Run the performance model with no financial model' } ); enum { LOAD_SIMPLE, LOAD_BELPE, NO_LOAD }; -enum { DEGRADATION_AC_SINGLE_YEAR, DEGRADATION_DC_LIFETIME, DEGRADATION_AC_LIFETIME, DEGRADATION_PVSAM }; +enum { DEGRADATION_AC_SINGLE_YEAR, DEGRADATION_DC_LIFETIME, DEGRADATION_AC_LIFETIME, DEGRADATION_PVSAM, DEGRADATION_AC_LIFETIME_LINEAR }; function setup_elec_load_page( mode ) //i is 1 for technologies that HAVE the building load calculator (for now just PV, CSP, Biopower, and Generic Solar- MUST HAVE SOLAR RESOURCE DATA), 2 for techs without ANY load pages (SWH), and 0 for technologies that don't { @@ -327,11 +327,17 @@ function setup_lifetime_page( degradation_mode ) { addpage( [ [ 'Degradation DC Lifetime' ] ], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc' } ); } - // annual AC degradation over analysis period, 'generic_degradation' requires 'system_use_lifetime = 1' + // annual AC degradation over analysis period, 'ac_degradation' requires 'system_use_lifetime = 1' // Generic Battery elseif ( degradation_mode == DEGRADATION_AC_LIFETIME ) { addpage( [ [ 'Degradation AC Lifetime'] ], { 'sidebar'='AC Degradation','help'='degradation/degradation_ac' } ); + } + // annual AC degradation over analysis period, 'ac_degradation' requires 'system_use_lifetime = 1' + // Generic Battery + elseif ( degradation_mode == DEGRADATION_AC_LIFETIME_LINEAR ) + { + addpage( [ [ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='AC Degradation','help'='degradation/degradation_ac' } ); } // annual DC degradation over analysis period with daily AC / DC losses over lifetime // 'dc_degradation' requires 'system_use_lifetime = 1' @@ -1321,7 +1327,7 @@ setup_thirdparty_pages( LOAD_BELPE); //includes building load calculator by defa setconfig( 'Wind Power', 'Residential' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'cashloan']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1331,7 +1337,7 @@ setup_residential_pages( LOAD_SIMPLE ); //does not include building load calcula setconfig( 'Wind Power', 'Commercial' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'cashloan']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1342,7 +1348,7 @@ setup_commercial_pages( LOAD_SIMPLE ); //does not include building load calculat setconfig( 'Wind Power', 'Leveraged Partnership Flip' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'levpartflip']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1353,7 +1359,7 @@ setup_electricity_purchases(); setconfig( 'Wind Power', 'All Equity Partnership Flip' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'equpartflip']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1364,7 +1370,7 @@ setup_electricity_purchases(); setconfig( 'Wind Power', 'Sale Leaseback' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'saleleaseback']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1375,7 +1381,7 @@ setup_electricity_purchases(); setconfig( 'Wind Power', 'Single Owner' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'singleowner']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -1385,7 +1391,7 @@ setup_electricity_purchases(); setconfig( 'Wind Power', 'Merchant Plant' ); setmodules( ['windpower', 'grid', 'utilityrate5', 'merchantplant']); setup_windpower_pages(); -setup_lifetime_page(DEGRADATION_AC_SINGLE_YEAR); +setup_lifetime_page(DEGRADATION_AC_LIFETIME_LINEAR); addpage( [['Wind Farm Costs']], { 'sidebar'='Installation Costs', 'help'='installation-costs/cc_wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Operating Costs', 'help'='operating-costs/oc_operating'} ); @@ -2935,7 +2941,7 @@ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/ // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs', 'Operating Costs Land Lease' ]], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -2943,7 +2949,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); // battery @@ -2995,7 +3001,7 @@ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/ // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs']], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -3003,7 +3009,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); // battery @@ -3060,7 +3066,7 @@ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/ // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs', 'Operating Costs Land Lease' ]], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -3068,7 +3074,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); //fuel cell @@ -3133,7 +3139,7 @@ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/ // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs']], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -3141,7 +3147,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); //fuel cell @@ -3225,7 +3231,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); // battery @@ -3281,7 +3287,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); // battery @@ -3341,13 +3347,13 @@ sethybridvariabledependencies([ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/hybrid_system', 'top_page'=true}); //generic addpage( [[ 'Custom Generation Plant' ]], { 'sidebar'='Custom Generation Profile' , 'help'='custom-generation/custom_generation_profile', 'bin_name'='CustomGeneration' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='Custom Generation AC Degradation','help'='degradation/degradation_ac', 'bin_name'='CustomGeneration' } ); +addpage( [[ 'Degradation AC Lifetime'], ], { 'sidebar'='Custom Generation AC Degradation','help'='degradation/degradation_ac', 'bin_name'='CustomGeneration' } ); addpage( [[ 'Custom Generation Costs']],{ 'sidebar'='Custom Generation Installation Costs', 'help'='installation-costs/cc_custom_generation', 'bin_name'='CustomGeneration' } ); addpage( [[ 'Operating Costs Fuel' ]], {'sidebar' = 'Custom Generation Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='CustomGeneration'} ); // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs', 'Operating Costs Land Lease' ]], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -3355,7 +3361,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); //fuel cell @@ -3425,13 +3431,13 @@ sethybridvariabledependencies([ addpage([['Hybrid System']], {'sidebar'='Hybrid System', 'help'='hybrid-systems/hybrid_system', 'top_page'=true}); //generic addpage( [[ 'Custom Generation Plant' ]], { 'sidebar'='Custom Generation Profile' , 'help'='custom-generation/custom_generation_profile', 'bin_name'='CustomGeneration' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='Generic AC Degradation','help'='degradation/degradation_ac', 'bin_name'='CustomGeneration' } ); +addpage( [[ 'Degradation AC Lifetime'], ], { 'sidebar'='Generic AC Degradation','help'='degradation/degradation_ac', 'bin_name'='CustomGeneration' } ); addpage( [[ 'Custom Generation Costs']],{ 'sidebar'='Custom Generation Installation Costs', 'help'='installation-costs/cc_custom_generation', 'bin_name'='CustomGeneration' } ); addpage( [[ 'Operating Costs Fuel' ]], {'sidebar' = 'Custom Generation Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='CustomGeneration'} ); // pvwatts addpage( [[ 'Solar Resource Download', 'Solar Resource Library', 'Solar Resource Information' ]], { 'sidebar'='PV Location and Resource', 'help'='pvwatts/pvwatts_location_and_resource', 'bin_name'='PVWatts' } ); addpage( [[ 'PVWatts', {'name'='PV Land Area', 'caption' = 'Land Area', 'collapsible'=true, 'collapsible_var'='pv_land_area_is_shown'}, {'name'='PVWatts Advanced Inputs', 'caption' = 'Advanced Inputs', 'collapsible'=true, 'collapsible_var'='pvwatts.advanced.is_shown'} ]], { 'sidebar'='PV System Design', 'help'='pvwatts/pvwatts_system_design', 'bin_name'='PVWatts' } ); -addpage( [[ 'Degradation AC Single Year'], ], { 'sidebar'='PV AC Degradation','help'='degradation/degradation_ac', 'bin_name'='PVWatts' } ); +addpage( [[ 'Degradation DC Lifetime' ]], { 'sidebar'='DC Degradation','help'='degradation/degradation_dc', 'bin_name'='PVWatts' } ); addpage( [[ 'PV Capital Costs' ]], { 'sidebar'='PV Installation Costs', 'help'='installation-costs/cc_pv', 'bin_name'='PVWatts'} ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'PV Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='PVWatts'} ); // wind @@ -3439,7 +3445,7 @@ addpage( [[ 'Wind Resource File'], [ 'Wind Speed Weibull Distribution'], [ 'Wind addpage( [[ 'Wind Turbine Design' ]], { 'sidebar'='Wind Turbine', 'help'='wind-power/wind_turbine', 'bin_name'='Wind' } ); addpage( [[ 'Wind Farm Specifications' ]], { 'sidebar'='Wind Farm', 'help'='wind-power/wind_farm', 'bin_name'='Wind' } ); addpage( [[ 'Wind Losses' ]], { 'sidebar'='Wind Losses', 'help'='wind-power/wind_losses', 'bin_name'='Wind'} ); -addpage( [[ 'Degradation AC Single Year'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); +addpage( [[ 'Degradation AC Lifetime Linear'] ], { 'sidebar'='Wind AC Degradation','help'='degradation/degradation_ac', 'bin_name'='Wind'} ); addpage( [[ 'Wind Farm Costs']], { 'sidebar'='Wind Installation Costs', 'help'='installation-costs/cc_wind', 'bin_name'='Wind' } ); addpage( [[ 'Operating Costs' ]], {'sidebar' = 'Wind Operating Costs', 'help'='operating-costs/oc_operating', 'bin_name'='Wind'} ); //fuel cell diff --git a/deploy/runtime/ui/Degradation AC Lifetime Linear.json b/deploy/runtime/ui/Degradation AC Lifetime Linear.json new file mode 100644 index 0000000000..0f6e97aa1b --- /dev/null +++ b/deploy/runtime/ui/Degradation AC Lifetime Linear.json @@ -0,0 +1,365 @@ +{ + "Name": "Degradation AC Lifetime Linear", + "Width": 794.0, + "Height": 134.0, + "FormObjects": { + "GroupBox": { + "Visible": 1.0, + "ObjectProperties": { + "Name": { + "Type": 5.0, + "String": "GroupBox11" + }, + "X": { + "Type": 3.0, + "Integer": 6.0 + }, + "Y": { + "Type": 3.0, + "Integer": 3.0 + }, + "Width": { + "Type": 3.0, + "Integer": 780.0 + }, + "Height": { + "Type": 3.0, + "Integer": 128.0 + }, + "Tool Tip": { + "Type": 5.0, + "String": "" + }, + "Caption": { + "Type": 5.0, + "String": "Annual Degradation for Multi-year Simulation" + }, + "Bold": { + "Type": 2.0, + "Boolean": 1.0 + } + } + }, + "SchedNumeric": { + "Visible": 1.0, + "ObjectProperties": { + "Name": { + "Type": 5.0, + "String": "ac_degradation" + }, + "X": { + "Type": 3.0, + "Integer": 207.0 + }, + "Y": { + "Type": 3.0, + "Integer": 33.0 + }, + "Width": { + "Type": 3.0, + "Integer": 112.0 + }, + "Height": { + "Type": 3.0, + "Integer": 21.0 + }, + "Tool Tip": { + "Type": 5.0, + "String": "" + }, + "Label": { + "Type": 5.0, + "String": "AC Degradation (%/yr)" + }, + "UseSchedule": { + "Type": 2.0, + "Boolean": 0.0 + }, + "ScheduleOnly": { + "Type": 2.0, + "Boolean": 0.0 + }, + "FixedLength": { + "Type": 3.0, + "Integer": -1.0 + }, + "Description": { + "Type": 5.0, + "String": "Type a degradation rate (%) for each year. Each year's rate applies to the Year 1 annual output value. SAM ignores the degradation rate in Year 1 (Row 1 in the table)." + }, + "TabOrder": { + "Type": 3.0, + "Integer": 1.0 + } + } + }, + "Label": { + "Visible": 1.0, + "ObjectProperties": { + "Name": { + "Type": 5.0, + "String": "deg_mode" + }, + "X": { + "Type": 3.0, + "Integer": 438.0 + }, + "Y": { + "Type": 3.0, + "Integer": 15.0 + }, + "Width": { + "Type": 3.0, + "Integer": 345.0 + }, + "Height": { + "Type": 3.0, + "Integer": 78.0 + }, + "Tool Tip": { + "Type": 5.0, + "String": "" + }, + "Caption": { + "Type": 5.0, + "String": "In Value mode, the degradation rate is applied linearly starting in Year 2. In Schedule mode, each year's rate applies to the Year 1 value. See Help for details." + }, + "TextColour": { + "Type": 4.0, + "Color": { + "Red": 0.0, + "Green": 0.0, + "Blue": 0.0, + "Alpha": 255.0 + } + }, + "Bold": { + "Type": 2.0, + "Boolean": 0.0 + }, + "FontSize": { + "Type": 3.0, + "Integer": 0.0 + }, + "WordWrap": { + "Type": 2.0, + "Boolean": 1.0 + }, + "AlignRight": { + "Type": 2.0, + "Boolean": 0.0 + }, + "AlignTop": { + "Type": 2.0, + "Boolean": 1.0 + } + } + }, + "Label": { + "Visible": 1.0, + "ObjectProperties": { + "Name": { + "Type": 5.0, + "String": "degrad_sched_warning" + }, + "X": { + "Type": 3.0, + "Integer": 21.0 + }, + "Y": { + "Type": 3.0, + "Integer": 99.0 + }, + "Width": { + "Type": 3.0, + "Integer": 762.0 + }, + "Height": { + "Type": 3.0, + "Integer": 27.0 + }, + "Tool Tip": { + "Type": 5.0, + "String": "" + }, + "Caption": { + "Type": 5.0, + "String": "There is a non-zero degradation value for Year 1. SAM only applies degradation to the system output in Years 2 and later." + }, + "TextColour": { + "Type": 4.0, + "Color": { + "Red": 0.0, + "Green": 0.0, + "Blue": 0.0, + "Alpha": 255.0 + } + }, + "Bold": { + "Type": 2.0, + "Boolean": 0.0 + }, + "FontSize": { + "Type": 3.0, + "Integer": 0.0 + }, + "WordWrap": { + "Type": 2.0, + "Boolean": 1.0 + }, + "AlignRight": { + "Type": 2.0, + "Boolean": 0.0 + }, + "AlignTop": { + "Type": 2.0, + "Boolean": 1.0 + } + } + }, + "Label": { + "Visible": 1.0, + "ObjectProperties": { + "Name": { + "Type": 5.0, + "String": "object 75" + }, + "X": { + "Type": 3.0, + "Integer": 21.0 + }, + "Y": { + "Type": 3.0, + "Integer": 66.0 + }, + "Width": { + "Type": 3.0, + "Integer": 387.0 + }, + "Height": { + "Type": 3.0, + "Integer": 24.0 + }, + "Tool Tip": { + "Type": 5.0, + "String": "" + }, + "Caption": { + "Type": 5.0, + "String": "Applies to the system's AC output in each time step." + }, + "TextColour": { + "Type": 4.0, + "Color": { + "Red": 0.0, + "Green": 0.0, + "Blue": 0.0, + "Alpha": 255.0 + } + }, + "Bold": { + "Type": 2.0, + "Boolean": 0.0 + }, + "FontSize": { + "Type": 3.0, + "Integer": 0.0 + }, + "WordWrap": { + "Type": 2.0, + "Boolean": 1.0 + }, + "AlignRight": { + "Type": 2.0, + "Boolean": 0.0 + }, + "AlignTop": { + "Type": 2.0, + "Boolean": 1.0 + } + } + } + }, + "VarDatabase": { + "ac_degradation": { + "Version": 4.0, + "Type": 2.0, + "Label": "Annual AC degradation rate", + "Units": "%/year", + "Group": "Degradation and Lifetime", + "IndexLabels": "", + "Flags": 2.0, + "DefaultValue": [ + 0.0 + ], + "UIObject": "SchedNumeric", + "sscVariableName": "", + "sscVariableValue": "" + }, + "degradation": { + "Version": 4.0, + "Type": 2.0, + "Label": " Degradation financial", + "Units": " ", + "Group": "Degradation and Lifetime", + "IndexLabels": "", + "Flags": 4.0, + "DefaultValue": [ + 0.0 + ], + "UIObject": "Default", + "sscVariableName": "", + "sscVariableValue": "" + }, + "system_use_lifetime_output": { + "Version": 4.0, + "Type": 1.0, + "Label": " ", + "Units": " ", + "Group": "Degradation and Lifetime", + "IndexLabels": "", + "Flags": 0.0, + "DefaultValue": 1.0, + "UIObject": "Default", + "sscVariableName": "", + "sscVariableValue": "" + } + }, + "Equations": [ + "equations {'system_use_lifetime_output'} = define() {", + "\treturn 1;", + "};\t", + "", + "// `degradation` is required for all financial models", + "// but not used if system_use_lifetime_output = 1", + "// so provide dummy value here", + "equations {'degradation'} = define() {", + "\treturn [0];", + "};" + ], + "Callbacks": [ + "function display_warning()", + "{", + "\tdisplayflag = false;", + "\tdcd = value('ac_degradation');", + "\tif (#dcd > 1 && dcd[0] != 0)", + "\t{", + "\t\tdisplayflag = true;", + "\t}\t", + "\tshow('degrad_sched_warning', displayflag);", + "\trefresh();", + "}", + "", + "on_load{'Degradation AC Lifetime Linear'} = define()", + "{", + "\tproperty('ac_degradation','FixedLength',value('analysis_period'));", + "\tdisplay_warning();\r", + "\t", + "};", + "", + "on_change{'ac_degradation'} = define()", + "{", + "\tdisplay_warning();", + "};" + ] +} \ No newline at end of file diff --git a/deploy/runtime/ui/Degradation AC Lifetime.json b/deploy/runtime/ui/Degradation AC Lifetime.json index 4277f93b23..ba1eae9da0 100644 --- a/deploy/runtime/ui/Degradation AC Lifetime.json +++ b/deploy/runtime/ui/Degradation AC Lifetime.json @@ -40,118 +40,118 @@ } } }, - "Label": { + "SchedNumeric": { "Visible": 1.0, "ObjectProperties": { "Name": { "Type": 5.0, - "String": "degrad_sched_warning" + "String": "ac_degradation" }, "X": { "Type": 3.0, - "Integer": 21.0 + "Integer": 207.0 }, "Y": { "Type": 3.0, - "Integer": 99.0 + "Integer": 33.0 }, "Width": { "Type": 3.0, - "Integer": 762.0 + "Integer": 112.0 }, "Height": { "Type": 3.0, - "Integer": 27.0 + "Integer": 21.0 }, "Tool Tip": { "Type": 5.0, "String": "" }, - "Caption": { + "Label": { "Type": 5.0, - "String": "There is a non-zero degradation value for Year 1. SAM only applies degradation to the system output in Years 2 and later." + "String": "AC Degradation (%/yr)" }, - "TextColour": { - "Type": 4.0, - "Color": { - "Red": 0.0, - "Green": 0.0, - "Blue": 0.0, - "Alpha": 255.0 - } + "UseSchedule": { + "Type": 2.0, + "Boolean": 0.0 }, - "Bold": { + "ScheduleOnly": { "Type": 2.0, "Boolean": 0.0 }, - "FontSize": { + "FixedLength": { "Type": 3.0, - "Integer": 0.0 - }, - "WordWrap": { - "Type": 2.0, - "Boolean": 1.0 + "Integer": -1.0 }, - "AlignRight": { - "Type": 2.0, - "Boolean": 0.0 + "Description": { + "Type": 5.0, + "String": "Type a degradation rate (%) for each year. Each year's rate applies to the Year 1 annual output value. SAM ignores the degradation rate in Year 1 (Row 1 in the table)." }, - "AlignTop": { - "Type": 2.0, - "Boolean": 1.0 + "TabOrder": { + "Type": 3.0, + "Integer": 1.0 } } }, - "SchedNumeric": { + "Label": { "Visible": 1.0, "ObjectProperties": { "Name": { "Type": 5.0, - "String": "generic_degradation" + "String": "deg_mode" }, "X": { "Type": 3.0, - "Integer": 207.0 + "Integer": 438.0 }, "Y": { "Type": 3.0, - "Integer": 33.0 + "Integer": 15.0 }, "Width": { "Type": 3.0, - "Integer": 112.0 + "Integer": 345.0 }, "Height": { "Type": 3.0, - "Integer": 21.0 + "Integer": 78.0 }, "Tool Tip": { "Type": 5.0, "String": "" }, - "Label": { + "Caption": { "Type": 5.0, - "String": "AC Degreadation (%/yr)" + "String": "In Value mode, the degradation rate is compounded annually starting in Year 2. In Schedule mode, each year's rate applies to the Year 1 value. See Help for details." }, - "UseSchedule": { - "Type": 2.0, - "Boolean": 0.0 + "TextColour": { + "Type": 4.0, + "Color": { + "Red": 0.0, + "Green": 0.0, + "Blue": 0.0, + "Alpha": 255.0 + } }, - "ScheduleOnly": { + "Bold": { "Type": 2.0, "Boolean": 0.0 }, - "FixedLength": { + "FontSize": { "Type": 3.0, - "Integer": -1.0 + "Integer": 0.0 }, - "Description": { - "Type": 5.0, - "String": "Type a degradation rate (%) for each year. Each year's rate applies to the Year 1 annual output value. SAM ignores the degradation rate in Year 1 (Row 1 in the table)." + "WordWrap": { + "Type": 2.0, + "Boolean": 1.0 }, - "TabOrder": { - "Type": 3.0, - "Integer": 1.0 + "AlignRight": { + "Type": 2.0, + "Boolean": 0.0 + }, + "AlignTop": { + "Type": 2.0, + "Boolean": 1.0 } } }, @@ -160,23 +160,23 @@ "ObjectProperties": { "Name": { "Type": 5.0, - "String": "object 7" + "String": "degrad_sched_warning" }, "X": { "Type": 3.0, - "Integer": 438.0 + "Integer": 21.0 }, "Y": { "Type": 3.0, - "Integer": 15.0 + "Integer": 99.0 }, "Width": { "Type": 3.0, - "Integer": 345.0 + "Integer": 762.0 }, "Height": { "Type": 3.0, - "Integer": 78.0 + "Integer": 27.0 }, "Tool Tip": { "Type": 5.0, @@ -184,7 +184,7 @@ }, "Caption": { "Type": 5.0, - "String": "In Value mode, the degradation rate is compounded annually starting in Year 2. In Schedule mode, each year's rate applies to the Year 1 value. See Help for details." + "String": "There is a non-zero degradation value for Year 1. SAM only applies degradation to the system output in Years 2 and later." }, "TextColour": { "Type": 4.0, @@ -281,33 +281,33 @@ } }, "VarDatabase": { - "degradation": { + "ac_degradation": { "Version": 4.0, "Type": 2.0, - "Label": " Degradation financial", - "Units": " ", + "Label": "Annual AC degradation rate", + "Units": "%/year", "Group": "Degradation and Lifetime", "IndexLabels": "", - "Flags": 4.0, + "Flags": 2.0, "DefaultValue": [ 0.0 ], - "UIObject": "Default", + "UIObject": "SchedNumeric", "sscVariableName": "", "sscVariableValue": "" }, - "generic_degradation": { + "degradation": { "Version": 4.0, "Type": 2.0, - "Label": "Annual AC degradation rate", - "Units": "%/year", + "Label": " Degradation financial", + "Units": " ", "Group": "Degradation and Lifetime", "IndexLabels": "", - "Flags": 2.0, + "Flags": 4.0, "DefaultValue": [ 0.0 ], - "UIObject": "SchedNumeric", + "UIObject": "Default", "sscVariableName": "", "sscVariableValue": "" }, @@ -341,7 +341,7 @@ "function display_warning()", "{", "\tdisplayflag = false;", - "\tdcd = value('generic_degradation');", + "\tdcd = value('ac_degradation');", "\tif (#dcd > 1 && dcd[0] != 0)", "\t{", "\t\tdisplayflag = true;", @@ -352,11 +352,12 @@ "", "on_load{'Degradation AC Lifetime'} = define()", "{", - "\tproperty('generic_degradation','FixedLength',value('analysis_period'));", - "\tdisplay_warning();", + "\tproperty('ac_degradation','FixedLength',value('analysis_period'));", + "\tdisplay_warning();\r", + "\t", "};", "", - "on_change{'generic_degradation'} = define()", + "on_change{'ac_degradation'} = define()", "{", "\tdisplay_warning();", "};" diff --git a/deploy/runtime/ui/Solar Resource Download.json b/deploy/runtime/ui/Solar Resource Download.json index fc39eeface..19682c3d8d 100644 --- a/deploy/runtime/ui/Solar Resource Download.json +++ b/deploy/runtime/ui/Solar Resource Download.json @@ -850,6 +850,9 @@ "\t\t\t\telseif ( name == 'suny-india-tmy' && (available_names ?@ 'himawari-tmy') < 0 ) {\r", "\t\t\t\t\ti_dataset = i;\r", "\t\t\t\t}\r", + "\t\t\t\telseif ( name == 'nsrdb-polar-tmy-v4-0-0' ) {\r", + "\t\t\t\t\ti_dataset = i;\r", + "\t\t\t\t}\r", "\t\t\t\telseif ( name == 'nsrdb-GOES-tmy-v4-0-0' ) {\r", "\t\t\t\t\ti_dataset = i;\r", "\t\t\t\t}\r", @@ -867,6 +870,9 @@ "\t\t\t\telseif ( name == 'himawari' && (available_names ?@ 'nsrdb-GOES-aggregated-v4-0-0') < 0 ) {\r", "\t\t\t\t\ti_dataset = i;\r", "\t\t\t\t}\r", + "\t\t\t\telseif ( name == 'nsrdb-polar-v4-0-0' ) {\r", + "\t\t\t\t\ti_dataset = i;\r", + "\t\t\t\t}\r", "\t\t\t\telseif ( name == 'nsrdb-GOES-aggregated-v4-0-0' ) {\r", "\t\t\t\t\ti_dataset = i;\r", "\t\t\t\t}\r", diff --git a/deploy/runtime/ui/Wind Farm Specifications.json b/deploy/runtime/ui/Wind Farm Specifications.json index 5131e7a87a..0cacc75aa3 100644 --- a/deploy/runtime/ui/Wind Farm Specifications.json +++ b/deploy/runtime/ui/Wind Farm Specifications.json @@ -2343,7 +2343,9 @@ "\t", "\tconstant_loss = (${wind_farm_wake_model} != 3);", "\tenable( \"wind_resource_turbulence_coeff\", constant_loss);", - "\tenable( \"wake_loss\", !constant_loss);", + "\tenable( \"wake_loss\", !constant_loss);\r", + "\t\r", + "\tloss_adjustment_set();", "};", "", "on_change{\"windfarm.layout.file_or_controls\"} = define()", @@ -2400,6 +2402,21 @@ "\tconstant_loss = (${wind_farm_wake_model} != 3);", "\tenable( \"wind_resource_turbulence_coeff\", constant_loss);", "\tenable( \"wake_loss\", !constant_loss);", - "};" + "};\r", + "\r", + "function loss_adjustment_set() \r", + "{\r", + "\tif (financing() != \"LCOE Calculator\" && financing() != \"None\") {\r", + "\t\tif (value('system_use_lifetime_output') == 1) {\r", + "\t\t\tproperty('adjust', 'AnalysisPeriod', value('analysis_period'));\r", + "\t\t}\r", + "\t\telse {\r", + "\t\t\tproperty('adjust', 'AnalysisPeriod', 1);\r", + "\t\t}\r", + "\t}\r", + "\telse {\r", + "\t\tproperty('adjust', 'AnalysisPeriod', 1);\r", + "\t}\r", + "}" ] } \ No newline at end of file diff --git a/deploy/runtime/versions.lk b/deploy/runtime/versions.lk index e627dda0b8..299d832470 100644 --- a/deploy/runtime/versions.lk +++ b/deploy/runtime/versions.lk @@ -72,11 +72,12 @@ version_upgrade{'2026.2.19'} = define() { variable_name_change('project_contingency_budget_cost_rvalue', 'project_contingency_cost_rvalue'); variable_name_change('insurance_during_construction_method', 'insurance_during_construction_cost_method'); variable_name_change('insurance_during_construction_modeled', 'insurance_during_construction_cost_modeled'); + variable_name_change("generic_degradation", "ac_degradation"); } if(cfg.tech == 'PVWatts' || cfg.tech == 'PVWatts Battery') { message('PVWatts now runs in lifetime mode so that time series outputs are over the analysis period instead of one year.', 'warning'); - message('PVWatts degradation is now modeled as DC degradation instead of AC degradation. DC degradation is an annual reduction in the DC output of the array instead of AC output of the system.', 'warning'); + message('PVWatts degradation is now modeled as DC degradation instead of AC degradation. DC degradation is an annual reduction in the DC output of the array instead of AC output of the system. DC degradation is applied linearly.', 'warning'); old_degradation = oldvalue('degradation'); value('dc_degradation', old_degradation, 'New DC degradation on DC Degradation page set to old AC degradation value from AC Degradation page.'); @@ -199,16 +200,48 @@ version_upgrade{'2026.2.19'} = define() { } - if (cfg.tech == 'Wind Power' || strpos(cfg.tech, "Hybrid") > -1) { + if (cfg.tech == 'Wind Power') { message('Wind balance of system cost estimators have been removed. Total capital costs remain the same in this version. Please uses SAM 2025.4.16 or older if you need access to the balance of system cost estimators within SAM.', 'warning'); + + wind_degradation = oldvalue('degradation'); + value('ac_degradation', wind_degradation, 'Wind has been updated to run in lifetime mode, the name of the degradation input has changed to "ac_degrdation". For Wind Power, lifetime mode applies degradation linearly.'); + } + + if (cfg.tech == 'Custom Generation Profile' ) { + ac_degradation = oldvalue('degradation'); + value('ac_degradation', ac_degradation, 'Custom generation profile has been updated to run in lifetime mode, the name of the degradation input has changed to "ac_degrdation".'); + } - if (cfg.tech == 'Custom Generation Profile' || cfg.tech == 'CustomGeneration PVWatts Wind FuelCell Battery Hybrid') { + + if (strpos(cfg.tech, "Hybrid") > -1) { + // Detailed PV already used lifetime, no changes there + if (cfg.tech != 'Photovoltaic Wind Battery Hybrid') { + message('PVWatts now runs in lifetime mode so that time series outputs are over the analysis period instead of one year.', 'warning'); + message('PVWatts degradation is now modeled as DC degradation instead of AC degradation. DC degradation is an annual reduction in the DC output of the array instead of AC output of the system. DC degradation is applied linearly.', 'warning'); + old_degradation = oldvalue('pvwatts_degradation'); + + value('pvwatts_dc_degradation', old_degradation, 'New DC degradation on DC Degradation page set to old AC degradation value from AC Degradation page.'); + } + + message('Wind balance of system cost estimators have been removed. Total capital costs remain the same in this version. Please uses SAM 2025.4.16 or older if you need access to the balance of system cost estimators within SAM.', 'warning'); + + wind_degradation = oldvalue('wind_degradation'); + value('wind_ac_degradation', wind_degradation, 'Wind has been updated to run in lifetime mode, the name of the degradation input has changed to "ac_degrdation". For Wind Power, lifetime mode applies degradation linearly.'); + } + + if (cfg.tech == 'CustomGeneration PVWatts Wind FuelCell Battery Hybrid') { spec_mode = oldvalue('spec_mode'); if (spec_mode == 2) { value('spec_mode', 3, "Additional options have been added to custom generation profile, combined cases is now spec_mode 3"); } + + ac_degradation = oldvalue('customgeneration_degradation'); + value('customgeneration_ac_degradation', ac_degradation, 'Custom generation profile has been updated to run in lifetime mode, the name of the degradation input has changed to "ac_degrdation".'); + } + + }; version_upgrade{'2024.12.12'} = define() { diff --git a/doc/source/degradation/degradation_ac.rst b/doc/source/degradation/degradation_ac.rst index ac0b43eb8f..5fce6d9cc1 100644 --- a/doc/source/degradation/degradation_ac.rst +++ b/doc/source/degradation/degradation_ac.rst @@ -24,6 +24,12 @@ For most situations where you want to model an annual reduction in the system's An AC degradation rate of 1% for a system with a net annual AC output of 100,000 kWh in Year one results in annual output values of 100,000 kWh in year 1, 99,000 kWh in year 2, 98,010 kWh in year 3, 97,029.9 kWh in year 4, etc. +This example uses "compounding" degradation, where 1% is applied to the previous year's output. Wind Power uses AC linear degradation, where the degradation is always applied to the year 1 nameplate value: + +.. topic:: Linear Value Mode Example + + An AC degradation rate of 1% for a system with a net annual AC output of 100,000 kWh in Year one results in annual output values of 100,000 kWh in year 1, 99,000 kWh in year 2, 98,000 kWh in year 3, 97,000 kWh in year 4, etc. + In some situations, you may want to assign a different degradation rate to different years of the project cash flow. To do that, you use the "schedule mode" to specify a table of degradation rate values. In Schedule mode, SAM applies the degradation rate for a given year to the annual output in Year one to calculate the annual output for that year. .. topic:: Schedule Mode Example diff --git a/samples/Python Scripts/End Use Load Profiles/.gitignore b/samples/Python Scripts/End Use Load Profiles/.gitignore new file mode 100644 index 0000000000..11d4f2242b --- /dev/null +++ b/samples/Python Scripts/End Use Load Profiles/.gitignore @@ -0,0 +1,2 @@ +*.csv +*.parquet \ No newline at end of file diff --git a/samples/Python Scripts/End Use Load Profiles/Sample Results/.gitignore b/samples/Python Scripts/End Use Load Profiles/Sample Results/.gitignore new file mode 100644 index 0000000000..11d4f2242b --- /dev/null +++ b/samples/Python Scripts/End Use Load Profiles/Sample Results/.gitignore @@ -0,0 +1,2 @@ +*.csv +*.parquet \ No newline at end of file diff --git a/src/combinecases.cpp b/src/combinecases.cpp index d7179b19ec..cb329ee924 100644 --- a/src/combinecases.cpp +++ b/src/combinecases.cpp @@ -63,14 +63,14 @@ CombineCasesDialog::CombineCasesDialog(wxWindow* parent, const wxString& title, m_custom_generation_case = SamApp::Window()->GetCurrentCase(); m_custom_generation_case_name = SamApp::Window()->Project().GetCaseName(m_custom_generation_case); m_custom_generation_case_window = SamApp::Window()->GetCaseWindow(m_custom_generation_case); - if (m_custom_generation_case->Values(0).Get("generic_degradation")) { - m_generic_degradation = m_custom_generation_case->Values(0).Get("generic_degradation")->Array(); // name in generic-battery cases + if (m_custom_generation_case->Values(0).Get("ac_degradation")) { + m_ac_degradation = m_custom_generation_case->Values(0).Get("ac_degradation")->Array(); // name in generic-battery cases } else if (m_custom_generation_case->Values(0).Get("degradation")) { - m_generic_degradation = m_custom_generation_case->Values(0).Get("degradation")->Array(); // name in other cases, if defined + m_ac_degradation = m_custom_generation_case->Values(0).Get("degradation")->Array(); // name in other cases, if defined } else { - m_generic_degradation.push_back(0.); // no value defined for LCOE and None financial models, set to zero + m_ac_degradation.push_back(0.); // no value defined for LCOE and None financial models, set to zero } // Text at top of window @@ -94,13 +94,13 @@ CombineCasesDialog::CombineCasesDialog(wxWindow* parent, const wxString& title, // Due to complexity of AC and DC degradation and lifetime and single year simulations, require user to provide an // AC degradation rate for the combined project and ignore degradation rate inputs of individual system cases. m_schnDegradation = new AFSchedNumeric(this, ID_spndDegradation, wxDefaultPosition, wxSize(64, 22)); - if (m_generic_degradation.size() == 1) { + if (m_ac_degradation.size() == 1) { m_schnDegradation->UseSchedule(false); - m_schnDegradation->SetValue(m_generic_degradation[0]); + m_schnDegradation->SetValue(m_ac_degradation[0]); } else { m_schnDegradation->UseSchedule(true); - m_schnDegradation->SetSchedule(m_generic_degradation); + m_schnDegradation->SetSchedule(m_ac_degradation); } wxString degradation_label = "%/year Annual AC degradation rate for all cases"; wxBoxSizer* szdegradation = new wxBoxSizer(wxHORIZONTAL); diff --git a/src/combinecases.h b/src/combinecases.h index 9632666ee1..c774209f5b 100644 --- a/src/combinecases.h +++ b/src/combinecases.h @@ -77,7 +77,7 @@ class CombineCasesDialog : public wxDialog Case* m_custom_generation_case; wxString m_custom_generation_case_name; CaseWindow* m_custom_generation_case_window; - std::vector m_generic_degradation; + std::vector m_ac_degradation; std::vector m_cases; wxCheckListBox* m_chlCases; wxCheckBox* m_chkOverwriteCapital; diff --git a/src/project.cpp b/src/project.cpp index 18abf88d7c..7658a4b1ee 100644 --- a/src/project.cpp +++ b/src/project.cpp @@ -408,18 +408,16 @@ static void fcall_vuc_case_name( lk::invoke_t &cxt ) static void fcall_vuc_config_update_with_old_values(lk::invoke_t& cxt) { LK_DOC("config_update_with_old_values", "Update current case with old values", "(none):table"); - if (VersionUpgrade* vuc = static_cast(cxt.user_data())) - { - VarTable& vt_old = vuc->GetCase()->OldValues(0); + if (VersionUpgrade* vuc = static_cast(cxt.user_data())) { cxt.result().empty_hash(); - for (VarTable::iterator it = vt_old.begin(); it != vt_old.end(); ++it) - { - if (VarValue* vv = vuc->GetCase()->Values(0).Get(it->first)) - { - if (vv->Type() == (it->second)->Type()) // only update if old variable is of same type - { - cxt.result().hash_item(it->first).assign(vv->AsString() + "=" + it->second->AsString() + "\n"); - vv->Copy(*(it->second)); + for (size_t ndxHybrid = 0; ndxHybrid < vuc->GetCase()->GetConfiguration()->Technology.size(); ndxHybrid++) { + VarTable& vt_old = vuc->GetCase()->OldValues(ndxHybrid); + for (VarTable::iterator it = vt_old.begin(); it != vt_old.end(); ++it) { + if (VarValue* vv = vuc->GetCase()->Values(ndxHybrid).Get(it->first)) { + if (vv->Type() == (it->second)->Type()) { // only update if old variable is of same type + cxt.result().hash_item(it->first).assign(vv->AsString() + "=" + it->second->AsString() + "\n"); + vv->Copy(*(it->second)); + } } } } @@ -457,13 +455,34 @@ static void fcall_vuc_config( lk::invoke_t &cxt ) } +static bool UpdateVarNameNdxHybrid(Case* c, const wxString& input_name, wxString* var_name, size_t* ndx_hybrid) +{ + if (!c) return false; + *ndx_hybrid = c->GetConfiguration()->Technology.size() - 1; // size always >=1 + *var_name = input_name; + wxArrayString as = wxSplit(input_name, '_'); + if (as.size() > 1) { + for (size_t j = 0; j < c->GetConfiguration()->Technology.size(); j++) { + if (c->GetConfiguration()->Technology[j].Lower() == as[0]) { + *ndx_hybrid = j; + *var_name = input_name.Right(input_name.length() - (as[0].length() + 1)); + } + } + } + return true; +} + + static void fcall_vuc_value( lk::invoke_t &cxt ) { LK_DOC("value", "Set or get a variable's value. New variables may be created.", "(string:name, [variant:value], [string:reason]):variant"); if ( VersionUpgrade *vuc = static_cast(cxt.user_data()) ) { - wxString name( cxt.arg(0).as_string() ); - VarTable &vt = vuc->GetCase()->Values(0); + wxString name; + size_t ndx_hybrid = 0; + UpdateVarNameNdxHybrid(vuc->GetCase(), cxt.arg(0).as_string(), &name, &ndx_hybrid); + VarTable& vt = vuc->GetCase()->Values(ndx_hybrid); + if ( cxt.arg_count() == 1 ) { if ( VarValue *vv = vt.Get( name ) ) @@ -486,8 +505,8 @@ static void fcall_vuc_value( lk::invoke_t &cxt ) if ( cxt.arg_count() > 2 ) reason = cxt.arg(2).as_string(); wxString label( name ); - if ( 0 != vuc->GetCase()->Variables(0).Lookup( name ) ) - label = vuc->GetCase()->Variables(0).Label(name); + if ( 0 != vuc->GetCase()->Variables(ndx_hybrid).Lookup( name ) ) + label = vuc->GetCase()->Variables(ndx_hybrid).Label(name); wxString valstr( vv->AsString( ',', '|' ) ); if ( valstr.Len() > 100 ) @@ -519,9 +538,12 @@ static void fcall_vuc_oldvalue( lk::invoke_t &cxt ) LK_DOC( "oldvalue", "Retrieve a variable value from the project file that is no longer valid in the current case configuration, either due to wrong type or name change.", "(string:name):variant" ); if ( VersionUpgrade *vuc = static_cast(cxt.user_data()) ) { - VarTable &vt = vuc->GetCase()->OldValues(0); - if ( VarValue *vv = vt.Get( cxt.arg(0).as_string() ) ) - vv->Write( cxt.result() ); + wxString var_name; + size_t ndx_hybrid = 0; + UpdateVarNameNdxHybrid(vuc->GetCase(), cxt.arg(0).as_string(), &var_name, &ndx_hybrid); + VarTable& vt = vuc->GetCase()->OldValues(ndx_hybrid); + if (VarValue* vv = vt.Get(var_name)) + vv->Write(cxt.result()); } } diff --git a/src/pvuncertainty.cpp b/src/pvuncertainty.cpp index d94290a828..fc238f0efa 100644 --- a/src/pvuncertainty.cpp +++ b/src/pvuncertainty.cpp @@ -150,7 +150,12 @@ PVUncertaintyForm::PVUncertaintyForm( wxWindow *parent, Case *cc ) wxStaticBoxSizer *sizer_changePvalue = new wxStaticBoxSizer( wxHORIZONTAL, this, "Update P value" ); label = new wxStaticText( this, wxID_ANY, "Custom Px:" ); - m_puser = new wxNumericCtrl( this, wxID_ANY, 90, wxNUMERIC_REAL ); + int pValue = static_cast(m_data.pValue); + if (pValue < 1) pValue = 1; + else if (pValue > 99) pValue = 99; + m_data.pValue = pValue; + m_puser = new wxNumericCtrl( this, wxID_ANY, 90, wxNUMERIC_UNSIGNED ); + m_puser->SetRange(1, 99); sizer_changePvalue->AddSpacer( 20 ); sizer_changePvalue->Add( label , 0, wxLEFT|wxRIGHT|wxALIGN_CENTER_VERTICAL, 0 ); sizer_changePvalue->Add( m_puser, 0, wxALL|wxALIGN_CENTER_VERTICAL, 3 ); diff --git a/src/welcome.cpp b/src/welcome.cpp index c7a7c75b56..6ee43d497c 100644 --- a/src/welcome.cpp +++ b/src/welcome.cpp @@ -66,8 +66,6 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include #include -//#include "../resource/nrel.cpng" - #include "main.h" #include "invoke.h" #include "script.h" diff --git a/test_results_win64.csv b/test_results_win64.csv index 044bde07b6..0fe3b0c08b 100644 --- a/test_results_win64.csv +++ b/test_results_win64.csv @@ -65,16 +65,16 @@ Standalone Battery,Merchant Plant,-6.8282e+06,28.139,NA,; Warning: IRR at end of Standalone Battery,Leveraged Partnership Flip,-6.8282e+06,75.8238,72.8932,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-1.51094e+07. A negative NPV indicates project costs are higher than revenues. Standalone Battery,All Equity Partnership Flip,-6.8282e+06,80.0715,72.8932,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-3.88136e+07. A negative NPV indicates project costs are higher than revenues. Standalone Battery,Sale Leaseback,-6.8282e+06,76.249,72.8932,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-1.98418e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-8.19532e+07. A negative NPV indicates project costs are higher than revenues. -ETES,Single Owner,-466572416,15.0793,7.40746,; -PTES,Single Owner,-197595520,19.0302,10.3676,; -Physical Trough,Single Owner,377430080,14.7263,14.5131,; -Physical Trough,Merchant Plant,377430080,13.3388,NA,; -Physical Trough,Leveraged Partnership Flip,377430080,14.9969,14.5131,; -Physical Trough,All Equity Partnership Flip,377430080,16.4958,14.5131,; -Physical Trough,Sale Leaseback,377430080,17.1968,16.0294,; -Physical Trough,LCOE Calculator,377430080,NA,NA,; -Physical Trough,Commercial,377430080,7.78339,NA,; -Physical Trough,None,377430080,NA,NA,; +ETES,Single Owner,-466573504,15.0793,7.40746,; +PTES,Single Owner,-197596064,19.0302,10.3676,; +Physical Trough,Single Owner,377429504,14.7263,14.5131,; +Physical Trough,Merchant Plant,377429504,13.3388,NA,; +Physical Trough,Leveraged Partnership Flip,377429504,14.9969,14.5131,; +Physical Trough,All Equity Partnership Flip,377429504,16.4958,14.5131,; +Physical Trough,Sale Leaseback,377429504,17.1968,16.0294,; +Physical Trough,LCOE Calculator,377429504,NA,NA,; +Physical Trough,Commercial,377429504,7.7834,NA,; +Physical Trough,None,377429504,NA,NA,; Empirical Trough,Commercial,345244672,7.66638,NA,; Warning: time 9738000.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: time 23788800.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Empirical Trough,Single Owner,345244672,15.1719,14.9463,; Warning: time 9738000.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: time 23788800.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: NPV is $-7.76431e+06. A negative NPV indicates project costs are higher than revenues. Empirical Trough,Merchant Plant,343802240,13.8072,NA,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-3.291e+08. A negative NPV indicates project costs are higher than revenues. @@ -83,17 +83,17 @@ Empirical Trough,All Equity Partnership Flip,345244672,16.818,14.9463,; Warning: Empirical Trough,Sale Leaseback,345244672,16.9267,14.9463,; Warning: time 9738000.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: time 23788800.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: NPV is $-6.9312e+07. A negative NPV indicates project costs are higher than revenues. Empirical Trough,LCOE Calculator,345244672,NA,NA,; Warning: time 9738000.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: time 23788800.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Empirical Trough,None,345244672,NA,NA,; Warning: time 9738000.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit Warning: time 23788800.00 { Test Trough 2 }:\ Warning - Empirical trough (805) model exceeded interal iteration limit -MSPT,Single Owner,593054464,10.7536,10.2891,; -MSPT,Merchant Plant,593054464,9.92281,NA,; -MSPT,Leveraged Partnership Flip,593054464,10.9553,10.2891,; -MSPT,All Equity Partnership Flip,593054464,12.0258,10.2891,; -MSPT,Sale Leaseback,593054464,12.2058,10.2891,; -MSPT,None,593054464,NA,NA,; -MSLF,Single Owner,305607136,18.7078,18.4121,; Warning: NPV is $-1.05068e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. -MSLF,Merchant Plant,305607136,14.7707,NA,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-3.72612e+08. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. -MSLF,Leveraged Partnership Flip,305607136,19.0005,18.4121,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-2.55519e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. -MSLF,All Equity Partnership Flip,305607136,20.6292,18.4121,; Warning: NPV is $-1.33271e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.22185e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. -MSLF,Sale Leaseback,305607136,20.796,18.4121,; Warning: NPV is $-8.65716e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-2.1461e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. +MSPT,Single Owner,593053888,10.7536,10.2891,; +MSPT,Merchant Plant,593053888,9.92281,NA,; +MSPT,Leveraged Partnership Flip,593053888,10.9553,10.2891,; +MSPT,All Equity Partnership Flip,593053888,12.0258,10.2891,; +MSPT,Sale Leaseback,593053888,12.2059,10.2891,; +MSPT,None,593053888,NA,NA,; +MSLF,Single Owner,305586656,18.7087,18.4121,; Warning: NPV is $-1.05405e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. +MSLF,Merchant Plant,305586656,14.7707,NA,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-3.72613e+08. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. +MSLF,Leveraged Partnership Flip,305586656,19.0014,18.4121,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-2.55848e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. +MSLF,All Equity Partnership Flip,305586656,20.63,18.4121,; Warning: NPV is $-1.33383e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.22358e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. +MSLF,Sale Leaseback,305586656,20.7967,18.4121,; Warning: NPV is $-8.65986e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-2.1471e+07. A negative NPV indicates project costs are higher than revenues. Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.4889 m (19.25 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.4889 | 19.2500 | 1\ 2 | 0.4889 | 19.2500 | 1\ 3 | 0.4889 | 19.2500 | 1\ 4 | 0.4889 | 19.2500 | 1\ 5 | 0.4889 | 19.2500 | 1\ 6 | 0.4889 | 19.2500 | 1\ 7 | 0.4889 | 19.2500 | 1\ 8 | 0.4889 | 19.2500 | 1\ 9 | 0.4889 | 19.2500 | 1\ 10 | 0.4889 | 19.2500 | 1\ 11 | 0.4381 | 17.2500 | 2\ 12 | 0.4381 | 17.2500 | 2\ 13 | 0.4381 | 17.2500 | 2\ 14 | 0.4381 | 17.2500 | 2\ 15 | 0.4381 | 17.2500 | 2\ 16 | 0.4381 | 17.2500 | 2\ 17 | 0.3906 | 15.3760 | 3\ 18 | 0.3906 | 15.3760 | 3\ 19 | 0.3906 | 15.3760 | 3\ 20 | 0.3906 | 15.3760 | 3\ 21 | 0.3906 | 15.3760 | 3\ 22 | 0.3398 | 13.3760 | 4\ 23 | 0.3398 | 13.3760 | 4\ 24 | 0.3398 | 13.3760 | 4\ 25 | 0.3398 | 13.3760 | 4\ 26 | 0.3398 | 13.3760 | 4\ 27 | 0.3111 | 12.2500 | 5\ 28 | 0.3111 | 12.2500 | 5\ 29 | 0.3111 | 12.2500 | 5\ 30 | 0.2604 | 10.2500 | 6\ 31 | 0.2604 | 10.2500 | 6\ 32 | 0.2604 | 10.2500 | 6\ 33 | 0.2604 | 10.2500 | 6\ 34 | 0.2604 | 10.2500 | 6\ 35 | 0.2604 | 10.2500 | 6\ 36 | 0.2604 | 10.2500 | 6\ 37 | 0.2604 | 10.2500 | 6\ 38 | 0.2604 | 10.2500 | 6\ 39 | 0.2604 | 10.2500 | 6\ 40 | 0.2604 | 10.2500 | 6\ 41 | 0.2604 | 10.2500 | 6\ 42 | 0.2604 | 10.2500 | 6\ Notice: At time = 88.1667 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 121.714 [MWt], greater than the target 119.229 [MWt]. Notice: At time = 322.179 power cycle startup time iteration only reached a convergence= -23.3292 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 349 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00306776. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 394.208 power cycle startup time iteration only reached a convergence= 1.4208 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.5 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 112.782 [MWt], greater than the target 111.951 [MWt]. Notice: At time = 664 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00548073. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.214 power cycle startup time iteration only reached a convergence= 23.6543 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1432 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00191909. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 275.119 [MWt] less than the target 279.877 [MWt]. Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00271044. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1720 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00273745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1814 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00792679. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1911 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00255382. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1958 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00732675. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1982 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105262. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.472 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2030 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 273.927 [MWt] less than the target 279.877 [MWt]. Notice: At time = 2078 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00313163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2127 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00581748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2150 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00629698. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2413 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00329821. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2437 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00971383. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2461 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119042. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00257079. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2509 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0137853. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2533 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00504222. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2581 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0088531. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2605 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00817783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2629 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00913989. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2653 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00205984. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2677 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00643246. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2750 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00871227. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2773 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00897616. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2796 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0163914. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2844 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0162032. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2869 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00835745. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100349. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2940 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110321. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2989 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00376409. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3061 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.014844. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3085 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00379055. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3133 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00260893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3156 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0119681. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3180 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0109942. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3204 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0126532. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3277 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0095471. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3324 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0110797. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3348 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00853686. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3397 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00173219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3421 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00102564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3445 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00431757. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3493 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00167568. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3517 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00836667. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3589 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00505028. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3637 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00120564. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3660 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00867337. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3708 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00901482. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3732 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0117955. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3756 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00961099. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3780 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00875704. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3804 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0116802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3852 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0102478. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3878 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00451906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3900 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0121486. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3948 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0111559. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3972 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0108319. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3996 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0134936. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4045 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00480812. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4069 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00894259. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4095 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00262019. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4117 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0100656. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4166 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00402875. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4237 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00353273. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4285 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0099711. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4308 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00228939. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4406 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00400064. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4431 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00204142. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4550 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00655783. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4670 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00248396. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4695 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00490091. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5005 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00740485. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5077 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0131119. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00100039. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5126 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00372154. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5149 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00366765. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5173 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0071777. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5198 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00633345. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5246 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00801995. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00227717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00587234. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5486 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0046811. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5606 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00380748. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5630 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00413906. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5678 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00491677. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5703 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00592652. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5775 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00544993. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5798 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00435817. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5823 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00182033. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5870 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00874. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5893 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0105717. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5917 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0115398. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5966 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0017367. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6013 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.0107077. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6110 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00821296. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 276.693 [MWt] less than the target 279.877 [MWt]. Notice: At time = 6471 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00424781. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6543 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00515802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7836 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0032883. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 7860 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.004025. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 17.827 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 power cycle startup time iteration only reached a convergence= -31.7086 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8650.18 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.064 [MWt], greater than the target 133.273 [MWt]. DSLF,Commercial,234568960,8.6057,NA,; DSLF,Single Owner,234568960,16.2718,16.0294,; Warning: NPV is $-5.64691e+06. A negative NPV indicates project costs are higher than revenues. DSLF,Merchant Plant,234568960,14.3574,NA,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-2.88286e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -9.25246. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year. @@ -110,9 +110,9 @@ Generic CSP System,All Equity Partnership Flip,592360448,12.8552,11.2639,; Warni Generic CSP System,Sale Leaseback,592360448,13.0371,11.2639,; Warning: NPV is $-1.04309e+08. A negative NPV indicates project costs are higher than revenues. Notice: time 0.00 { Generic solar model 2 }:\ The interpolation code must be 1 (interpolate) or 2 (nearest neighbor)The input value was 0, so it was reset to 1 Generic CSP System,LCOE Calculator,592360448,NA,NA,; Notice: time 0.00 { Generic solar model 2 }:\ The interpolation code must be 1 (interpolate) or 2 (nearest neighbor)The input value was 0, so it was reset to 1 Generic CSP System,None,592360448,NA,NA,; Notice: time 0.00 { Generic solar model 2 }:\ The interpolation code must be 1 (interpolate) or 2 (nearest neighbor)The input value was 0, so it was reset to 1 -MSPT IPH,None,1497516928,NA,NA,; -MSPT IPH,LCOH Calculator,1497516928,NA,NA,; -MSPT IPH,Single Owner,1550383104,6.2643,6.83681,; Notice: At time = 6087 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 278.765 [MWt] less than the target 279.126 [MWt]. +MSPT IPH,None,1497517184,NA,NA,; +MSPT IPH,LCOH Calculator,1497517184,NA,NA,; +MSPT IPH,Single Owner,1550383232,6.2643,6.83681,; Notice: At time = 6087 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 278.765 [MWt] less than the target 279.126 [MWt]. Physical Trough IPH,None,20907466,NA,NA,; Physical Trough IPH,LCOH Calculator,20907466,NA,NA,; Physical Trough IPH,Single Owner,20907466,7.5501,7.02159,; @@ -122,21 +122,21 @@ DSGL IPH,LCOH Calculator,10833103,NA,NA,; DSGL IPH,Single Owner,10833103,5.63346,7.72375,; MSLF IPH,None,16540981,NA,NA,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results MSLF IPH,LCOH Calculator,16540981,NA,NA,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results -MSLF IPH,Single Owner,16540981,6.93309,7.7607,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results -MSLF IPH,Commercial,16540981,4.64851,NA,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results +MSLF IPH,Single Owner,16540981,6.93337,7.7607,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results +MSLF IPH,Commercial,16540981,4.64862,NA,; Notice: Piping geometry file\ \ Maximum fluid velocity: 3.00\ Minimum fluid velocity: 2.00\ \ To section 1 header pipe diameter: 0.0626 m (2.46 in)\ Loop No. | Diameter [m] | Diameter [in] | Diam. ID\ --------------------------------------------------\ 1 | 0.0626 | 2.4646 | 1\ Notice: At time = 1911 CR_ON__PC_RM_HI__TES_FULL__AUX_OFF converged to a power cycle thermal input 4.94885 [MWt] less than the target 5 [MWt]. Notice: At time = 2462 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = 0.00274721. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3086 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00437688. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3949 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = -0.00127256. Check that results at this timestep are not unreasonably biasing total simulation results MEwave,Single Owner,65589748,81.373,59.0541,; Warning: NPV is $-1.42268e+08. A negative NPV indicates project costs are higher than revenues. MEwave,LCOE Calculator,59434320,NA,NA,; MEwave,None,594343,NA,NA,; MEwave Battery,Single Owner,65027312,83.252,59.0537,; Warning: NPV is $-1.5293e+08. A negative NPV indicates project costs are higher than revenues. MEtidal,LCOE Calculator,2.16152e+06,NA,NA,; MEtidal,None,2.16152e+06,NA,NA,; -Wind Power,Residential,48358.4,19.1809,NA,; -Wind Power,Commercial,327922,6.76668,NA,; -Wind Power,Single Owner,818888256,2.59611,3.2492,; -Wind Power,Merchant Plant,818888256,2.62632,NA,; -Wind Power,Leveraged Partnership Flip,818888256,2.69456,3.2492,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. -Wind Power,All Equity Partnership Flip,818888256,2.98516,3.2492,; Warning: NPV is $-9.05533e+06. A negative NPV indicates project costs are higher than revenues. -Wind Power,Sale Leaseback,818888256,3.35372,3.2492,; Warning: IRR at end of analysis period is 185.757%. A high IRR may indicate a project with unrealistically high returns. Warning: NPV is $-9.19397e+06. A negative NPV indicates project costs are higher than revenues. +Wind Power,Residential,48358.4,20.1899,NA,; +Wind Power,Commercial,327922,7.12264,NA,; +Wind Power,Single Owner,818888256,2.77801,3.2399,; +Wind Power,Merchant Plant,818888256,2.8103,NA,; +Wind Power,Leveraged Partnership Flip,818888256,2.88163,3.2399,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. +Wind Power,All Equity Partnership Flip,818888256,3.15267,3.2399,; Warning: NPV is $-1.80559e+07. A negative NPV indicates project costs are higher than revenues. +Wind Power,Sale Leaseback,818888256,3.54061,3.2399,; Warning: IRR at end of analysis period is 185.757%. A high IRR may indicate a project with unrealistically high returns. Warning: NPV is $-2.36952e+07. A negative NPV indicates project costs are higher than revenues. Wind Power,LCOE Calculator,818888256,NA,NA,; Wind Power,None,201595968,NA,NA,; Fuel Cell,Commercial,1934877,10.1411,NA,; @@ -170,12 +170,12 @@ Custom Generation Profile,All Equity Partnership Flip,756864000,18.1665,25.9936, Custom Generation Profile,Sale Leaseback,756864000,17.8213,25.9936,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-5.31498e+07. A negative NPV indicates project costs are higher than revenues. Custom Generation Profile,LCOE Calculator,756864000,NA,NA,; Custom Generation Profile,None,756864000,NA,NA,; -PVWatts Wind Battery Hybrid,Single Owner,571509504,9.05417,6.19689,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. -PVWatts Wind Battery Hybrid,Host Developer,1119067,15.2982,16.5422,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. -PVWatts Wind FuelCell Battery Hybrid,Single Owner,574976896,9.01877,6.10819,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. -PVWatts Wind FuelCell Battery Hybrid,Host Developer,2.68756e+06,39.3376,40.0341,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. -Photovoltaic Wind Battery Hybrid,Single Owner,601657408,8.48431,5.92762,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower. -Photovoltaic Wind Battery Hybrid,Host Developer,1.30379e+06,12.694,16.5711,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower. -CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Single Owner,1332349312,11.5544,5.88111,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. -CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Host Developer,759754816,14.566,14.6375,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +PVWatts Wind Battery Hybrid,Single Owner,571509504,9.35022,6.19288,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +PVWatts Wind Battery Hybrid,Host Developer,1119067,15.4458,16.5322,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +PVWatts Wind FuelCell Battery Hybrid,Single Owner,574976896,9.30437,6.10072,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +PVWatts Wind FuelCell Battery Hybrid,Host Developer,2.68756e+06,39.6621,40.3146,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +Photovoltaic Wind Battery Hybrid,Single Owner,601657408,8.73964,5.92081,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower. +Photovoltaic Wind Battery Hybrid,Host Developer,1.30379e+06,12.7811,16.5645,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower. +CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Single Owner,1332349312,11.714,5.87734,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. +CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Host Developer,759754816,14.5662,14.6377,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower. final_configuration_eof,none,NA,NA,NA,