diff --git a/deploy/runtime/cashflow.lk b/deploy/runtime/cashflow.lk index f190aeeff..a518df64c 100644 --- a/deploy/runtime/cashflow.lk +++ b/deploy/runtime/cashflow.lk @@ -57,11 +57,9 @@ function is_iph_tech() function is_batt_tech() { - // may need to update to include PVWatts Battery, but as of 2020.2.29: - // no battery replacements for PVWatts Battery - // no retail purchases for PVWatts Battery because it is only behind-the-meter tech = technology(); x = ( tech == 'PV Battery' || + tech == 'PVWatts Battery' || tech == 'Standalone Battery' || tech == 'Custom Generation Battery' || ( tech == 'Fuel Cell' && value('en_batt') == true ) ); diff --git a/deploy/runtime/defaults/PVWatts Battery_All Equity Partnership Flip.json b/deploy/runtime/defaults/PVWatts Battery_All Equity Partnership Flip.json index 2818b10d7..4c9b3a3cf 100644 --- a/deploy/runtime/defaults/PVWatts Battery_All Equity Partnership Flip.json +++ b/deploy/runtime/defaults/PVWatts Battery_All Equity Partnership Flip.json @@ -10085,7 +10085,7 @@ "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, "city": "-", - "compute_as_cube": 1.0, + "compute_as_cube": 3.335064e-317, "const_per_interest1": 3129702.746789537, "const_per_interest2": 0.0, "const_per_interest3": 0.0, diff --git a/deploy/runtime/defaults/PVWatts Battery_Leveraged Partnership Flip.json b/deploy/runtime/defaults/PVWatts Battery_Leveraged Partnership Flip.json index 0a3b7480d..4d1b46f7a 100644 --- a/deploy/runtime/defaults/PVWatts Battery_Leveraged Partnership Flip.json +++ b/deploy/runtime/defaults/PVWatts Battery_Leveraged Partnership Flip.json @@ -10085,7 +10085,7 @@ "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, "city": "-", - "compute_as_cube": 1.0, + "compute_as_cube": 3.335064e-317, "const_per_interest1": 3129702.746789537, "const_per_interest2": 0.0, "const_per_interest3": 0.0, diff --git a/deploy/runtime/defaults/PVWatts Battery_Merchant Plant.json b/deploy/runtime/defaults/PVWatts Battery_Merchant Plant.json index 0fc98f8d4..64e41a47b 100644 --- a/deploy/runtime/defaults/PVWatts Battery_Merchant Plant.json +++ b/deploy/runtime/defaults/PVWatts Battery_Merchant Plant.json @@ -9615,8 +9615,8 @@ "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, "city": "-", - "compute_as_cube": 1.0, - "const_per_interest1": 3129701.7417939819, + "compute_as_cube": 3.335064e-317, + "const_per_interest1": 3129701.741793982, "const_per_interest2": 0.0, "const_per_interest3": 0.0, "const_per_interest4": 0.0, @@ -9626,7 +9626,7 @@ "const_per_interest_rate3": 0.0, "const_per_interest_rate4": 0.0, "const_per_interest_rate5": 0.0, - "const_per_interest_total": 3129701.7417939819, + "const_per_interest_total": 3129701.741793982, "const_per_months1": 6.0, "const_per_months2": 0.0, "const_per_months3": 0.0, diff --git a/deploy/runtime/defaults/PVWatts Battery_Sale Leaseback.json b/deploy/runtime/defaults/PVWatts Battery_Sale Leaseback.json index 26b9d7ae6..623b905f5 100644 --- a/deploy/runtime/defaults/PVWatts Battery_Sale Leaseback.json +++ b/deploy/runtime/defaults/PVWatts Battery_Sale Leaseback.json @@ -10085,7 +10085,7 @@ "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, "city": "-", - "compute_as_cube": 1.0, + "compute_as_cube": 3.335064e-317, "const_per_interest1": 3129702.746789537, "const_per_interest2": 0.0, "const_per_interest3": 0.0, diff --git a/deploy/runtime/defaults/PVWatts Battery_Single Owner.json b/deploy/runtime/defaults/PVWatts Battery_Single Owner.json index 8c28cfa40..138bbb3a4 100644 --- a/deploy/runtime/defaults/PVWatts Battery_Single Owner.json +++ b/deploy/runtime/defaults/PVWatts Battery_Single Owner.json @@ -10085,7 +10085,7 @@ "cbi_uti_tax_sta": 1.0, "chk_update_peaks": 0.0, "city": "-", - "compute_as_cube": 1.0, + "compute_as_cube": 3.335064e-317, "const_per_interest1": 3129702.746789537, "const_per_interest2": 0.0, "const_per_interest3": 0.0, diff --git a/test_results_win64.csv b/test_results_win64.csv index 044bde07b..71f5c6aa0 100644 --- a/test_results_win64.csv +++ b/test_results_win64.csv @@ -42,11 +42,11 @@ PVWatts Battery,Residential,13799.1,16.333,NA,; PVWatts Battery,Commercial,931773,7.03326,NA,; PVWatts Battery,Third Party,13799.1,NA,NA,; PVWatts Battery,Host Developer,931773,14.7108,16.2095,; -PVWatts Battery,Single Owner,206343552,67.0633,9.76139,; 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 $-1.10943e+09. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -433.293. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year. -PVWatts Battery,Merchant Plant,199957552,37.3945,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 $-6.37679e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -219.454. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year. -PVWatts Battery,Leveraged Partnership Flip,206343552,9.79874,9.76139,; 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 $-708685. A negative NPV indicates project costs are higher than revenues. -PVWatts Battery,All Equity Partnership Flip,206343552,58.2442,9.76139,; 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 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 $-9.19906e+08. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-1.44012e+07. A negative NPV indicates project costs are higher than revenues. -PVWatts Battery,Sale Leaseback,206343552,11.5502,9.76139,; 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 $-3.50089e+07. A negative NPV indicates project costs are higher than revenues. +PVWatts Battery,Single Owner,205381584,10.2651,9.82049,; Warning: NPV is $-8.59592e+06. A negative NPV indicates project costs are higher than revenues. +PVWatts Battery,Merchant Plant,199956368,37.3944,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 $-6.37606e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -219.413. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year. +PVWatts Battery,Leveraged Partnership Flip,205381584,9.83455,9.82049,; 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 $-266398. A negative NPV indicates project costs are higher than revenues. +PVWatts Battery,All Equity Partnership Flip,205381584,11.5969,9.82049,; 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 $-3.73513e+07. A negative NPV indicates project costs are higher than revenues. +PVWatts Battery,Sale Leaseback,205381584,11.5834,9.82049,; 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 $-3.44586e+07. A negative NPV indicates project costs are higher than revenues. Custom Generation Battery,Residential,13415.9,33.0165,NA,; Custom Generation Battery,Commercial,359934,30.9421,NA,; Custom Generation Battery,Third Party,6693.07,NA,NA,; @@ -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,-467611872,15.065,7.40081,; +PTES,Single Owner,-197515344,19.0377,10.37,; +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,; @@ -122,8 +122,8 @@ 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,;