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test_results_win64.csv
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test_results_win64.csv
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TECHNOLOGY,FINANCING,ANNUAL_OUTPUT,LCOE_NOM,LPPA_NOM,MESSAGES
Flat Plate PV,Residential,13707.6,8.66951,NA,;
Flat Plate PV,Commercial,808628,4.08407,NA,;
Flat Plate PV,Third Party,13707.6,NA,NA,;
Flat Plate PV,Host Developer,808628,10.3364,11.4551,;
Flat Plate PV,Single Owner,193154176,5.09571,4.64696,; Warning: NPV is $-8.1447e+06. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,Merchant Plant,193154176,4.83348,NA,; Warning: NPV is $-4.77921e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,Leveraged Partnership Flip,193154176,5.2633,4.64696,; 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 $-1.09627e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,All Equity Partnership Flip,193154176,5.75879,4.64696,; 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 $-2.20043e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,Sale Leaseback,193154176,6.53518,4.64696,; 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 $-3.44261e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,LCOE Calculator,193154176,NA,NA,;
Flat Plate PV,None,155941152,NA,NA,;
PVWatts,Residential,13916.2,9.69083,NA,;
PVWatts,Commercial,939340,3.76351,NA,;
PVWatts,Third Party,11132.9,NA,NA,;
PVWatts,Host Developer,939340,9.51537,10.2578,;
PVWatts,Single Owner,211972144,4.50518,4.64739,;
PVWatts,Community Solar,211972144,4.72724,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 $-6.50717e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Merchant Plant,211972144,4.23577,NA,; Warning: NPV is $-4.18125e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Leveraged Partnership Flip,211972144,4.65775,4.64739,; 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 $-202441. A negative NPV indicates project costs are higher than revenues.
PVWatts,All Equity Partnership Flip,211972144,5.17321,4.64739,; Warning: NPV is $-1.25226e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Sale Leaseback,211972144,5.88006,4.64739,; 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 $-2.47289e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,LCOE Calculator,211972144,NA,NA,;
PVWatts,None,173951936,NA,NA,;
High-X Concentrating PV,Single Owner,2.39082e+06,20.4395,25.9389,;
High-X Concentrating PV,Merchant Plant,2.39082e+06,17.6309,NA,; Warning: NPV is $-3.52769e+06. A negative NPV indicates project costs are higher than revenues.
High-X Concentrating PV,Leveraged Partnership Flip,2.39082e+06,21.7795,25.9389,; 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.
High-X Concentrating PV,All Equity Partnership Flip,2.39082e+06,25.1955,25.9389,;
High-X Concentrating PV,Sale Leaseback,2.39082e+06,25.5293,25.9389,;
High-X Concentrating PV,LCOE Calculator,2.39082e+06,NA,NA,;
High-X Concentrating PV,None,2.39082e+06,NA,NA,;
PV Battery,Residential,13551.8,16.6065,NA,;
PV Battery,Commercial,933472,7.29864,NA,;
PV Battery,Third Party,13600.5,NA,NA,;
PV Battery,Host Developer,933472,13.5376,16.2099,;
PV Battery,Single Owner,219717520,9.28267,9.95982,;
PV Battery,Merchant Plant,219717520,8.576,NA,; Warning: NPV is $-1.0943e+08. A negative NPV indicates project costs are higher than revenues.
PV Battery,Leveraged Partnership Flip,219717520,9.47597,9.95982,; 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.
PV Battery,All Equity Partnership Flip,219717520,10.6979,9.95982,; 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 $-1.92052e+07. A negative NPV indicates project costs are higher than revenues.
PV Battery,Sale Leaseback,219717520,11.3439,9.95982,; 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 $-2.90091e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts Battery,Residential,13674.2,19.6307,NA,;
PVWatts Battery,Commercial,930542,13.098,NA,;
PVWatts Battery,Third Party,11006,NA,NA,;
PVWatts Battery,Host Developer,930542,17.1626,16.2118,; Warning: NPV is $-84044.4. A negative NPV indicates project costs are higher than revenues.
Custom Generation Battery,Residential,6695.3,71.0582,NA,;
Custom Generation Battery,Commercial,359955,46.743,NA,;
Custom Generation Battery,Third Party,6692.59,NA,NA,;
Custom Generation Battery,Host Developer,359955,25.5896,16.246,; Warning: NPV is $-328863. A negative NPV indicates project costs are higher than revenues.
Custom Generation Battery,Single Owner,31106894,73.1077,14.6208,; Warning: NPV is $-1.77327e+08. A negative NPV indicates project costs are higher than revenues.
Custom Generation Battery,Merchant Plant,31106894,78.48,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 $-2.27289e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -2.91035. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Custom Generation Battery,Leveraged Partnership Flip,67947976,43.7803,40.6138,; 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 $-2.05839e+07. A negative NPV indicates project costs are higher than revenues.
Custom Generation Battery,All Equity Partnership Flip,67947976,49.0897,48.7366,; 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 $-7.31643e+06. A negative NPV indicates project costs are higher than revenues.
Custom Generation Battery,Sale Leaseback,67947976,49.4555,48.7366,; Warning: NPV is $-4.95165e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-2.20064e+06. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,Residential,-367.28,55.2342,NA,;
Standalone Battery,Commercial,-11072.6,422.476,NA,;
Standalone Battery,Third Party,-174.468,NA,NA,;
Standalone Battery,Host Developer,-11072.6,59.2859,16.2414,; 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 $-495188. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -10.2424. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Standalone Battery,Single Owner,-7.686e+06,76.3416,72.8025,;
Standalone Battery,Merchant Plant,-7.686e+06,24.1623,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 $-8.49157e+07. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -6.41244. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Standalone Battery,Leveraged Partnership Flip,-7.686e+06,76.9409,72.8025,; 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 $-2.52615e+07. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,All Equity Partnership Flip,-7.686e+06,77.883,72.8025,; 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 $-3.35851e+07. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,Sale Leaseback,-7.686e+06,77.6437,72.8025,; 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 $-3.26156e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-9.68853e+07. A negative NPV indicates project costs are higher than revenues.
ETES,Single Owner,-466572064,15.0794,7.40855,;
PTES,Single Owner,-197595520,19.0301,10.3676,;
Physical Trough,Single Owner,377431488,14.7263,14.5131,;
Physical Trough,Merchant Plant,377431488,13.3388,NA,;
Physical Trough,Leveraged Partnership Flip,377431488,14.9969,14.5131,;
Physical Trough,All Equity Partnership Flip,377431488,16.4958,14.5131,;
Physical Trough,Sale Leaseback,377431488,17.1968,16.0294,;
Physical Trough,LCOE Calculator,377431488,NA,NA,;
Physical Trough,None,377431488,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.
Empirical Trough,Leveraged Partnership Flip,345244672,15.5012,14.9463,; 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: 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 $-2.61073e+07. A negative NPV indicates project costs are higher than revenues.
Empirical Trough,All Equity Partnership Flip,345244672,16.818,14.9463,; 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 $-5.08034e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-4.73282e+07. A negative NPV indicates project costs are higher than revenues.
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,593054784,10.7536,10.2891,;
MSPT,Merchant Plant,593054784,9.92281,NA,;
MSPT,Leveraged Partnership Flip,593054784,10.9553,10.2891,;
MSPT,All Equity Partnership Flip,593054784,12.0257,10.2891,;
MSPT,Sale Leaseback,593054784,12.2058,10.2891,;
MSPT,None,593054784,NA,NA,;
MSLF,Single Owner,305613664,18.7075,18.4121,; Warning: NPV is $-1.04968e+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 = -0.001919. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00513663. 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 mass flow rate only reached a convergence = 0.00270916. 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 = -0.00273825. 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 = -0.00792677. 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 = -0.00255381. 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 = -0.0073258. 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 = -0.0105261. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0107458. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2030 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00113321. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.0031316. 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 = -0.0058173. 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 = -0.00629212. 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 = -0.00329823. 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 = -0.0097137. 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 = -0.0119043. 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 = -0.00257076. 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 = -0.0137852. 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 = -0.00504223. 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 = -0.00883644. 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 = -0.0081779. 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 = -0.00914113. 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 = -0.00205972. 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 = -0.00643244. 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 = -0.00871218. 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 = -0.00897598. 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 = -0.00834128. 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 = -0.0100348. 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 = -0.011032. 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 = -0.00376405. 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 = -0.0148426. 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 = -0.00379054. 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 = -0.00260892. 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 = -0.012653. 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 = -0.0085384. 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 = -0.00173232. 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 = -0.00167567. 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 = -0.00505024. 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 = -0.00120631. 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 = -0.00867336. 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 = -0.00901645. 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 = -0.0117958. 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 = -0.00961095. 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 = -0.00875713. 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 = -0.00451898. 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 = -0.0111563. 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 = -0.0108317. 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 = -0.00480811. 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 = -0.00894258. 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 = -0.00402874. 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 = -0.00353272. 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 = -0.00986992. 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 = -0.00229. 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 = -0.00400063. 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 = -0.00655777. 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 = -0.0131117. 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 = 0.00100033. 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 = -0.00372123. 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 = -0.00633344. 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 = -0.00801992. 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 = -0.00468105. 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 = -0.00380749. 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 = -0.00413893. 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 = -0.00491676. 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 = -0.0059265. 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 = -0.00544992. 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 = -0.00182053. 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 = -0.00873984. 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 = -0.0105716. 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 = -0.0115397. 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 = -0.00173657. 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 = -0.00821295. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00219029. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.00424778. 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 = -0.00515801. 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,305613664,14.7705,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 $-3.72611e+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 = -0.001919. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00513663. 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 mass flow rate only reached a convergence = 0.00270916. 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 = -0.00273825. 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 = -0.00792677. 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 = -0.00255381. 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 = -0.0073258. 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 = -0.0105261. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0107458. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2030 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00113321. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.0031316. 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 = -0.0058173. 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 = -0.00629212. 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 = -0.00329823. 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 = -0.0097137. 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 = -0.0119043. 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 = -0.00257076. 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 = -0.0137852. 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 = -0.00504223. 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 = -0.00883644. 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 = -0.0081779. 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 = -0.00914113. 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 = -0.00205972. 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 = -0.00643244. 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 = -0.00871218. 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 = -0.00897598. 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 = -0.00834128. 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 = -0.0100348. 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 = -0.011032. 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 = -0.00376405. 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 = -0.0148426. 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 = -0.00379054. 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 = -0.00260892. 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 = -0.012653. 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 = -0.0085384. 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 = -0.00173232. 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 = -0.00167567. 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 = -0.00505024. 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 = -0.00120631. 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 = -0.00867336. 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 = -0.00901645. 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 = -0.0117958. 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 = -0.00961095. 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 = -0.00875713. 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 = -0.00451898. 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 = -0.0111563. 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 = -0.0108317. 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 = -0.00480811. 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 = -0.00894258. 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 = -0.00402874. 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 = -0.00353272. 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 = -0.00986992. 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 = -0.00229. 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 = -0.00400063. 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 = -0.00655777. 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 = -0.0131117. 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 = 0.00100033. 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 = -0.00372123. 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 = -0.00633344. 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 = -0.00801992. 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 = -0.00468105. 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 = -0.00380749. 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 = -0.00413893. 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 = -0.00491676. 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 = -0.0059265. 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 = -0.00544992. 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 = -0.00182053. 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 = -0.00873984. 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 = -0.0105716. 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 = -0.0115397. 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 = -0.00173657. 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 = -0.00821295. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00219029. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.00424778. 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 = -0.00515801. 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,305613664,19.0002,18.4121,; 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 $-2.55422e+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 = -0.001919. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00513663. 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 mass flow rate only reached a convergence = 0.00270916. 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 = -0.00273825. 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 = -0.00792677. 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 = -0.00255381. 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 = -0.0073258. 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 = -0.0105261. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0107458. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2030 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00113321. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.0031316. 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 = -0.0058173. 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 = -0.00629212. 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 = -0.00329823. 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 = -0.0097137. 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 = -0.0119043. 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 = -0.00257076. 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 = -0.0137852. 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 = -0.00504223. 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 = -0.00883644. 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 = -0.0081779. 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 = -0.00914113. 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 = -0.00205972. 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 = -0.00643244. 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 = -0.00871218. 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 = -0.00897598. 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 = -0.00834128. 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 = -0.0100348. 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 = -0.011032. 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 = -0.00376405. 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 = -0.0148426. 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 = -0.00379054. 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 = -0.00260892. 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 = -0.012653. 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 = -0.0085384. 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 = -0.00173232. 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 = -0.00167567. 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 = -0.00505024. 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 = -0.00120631. 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 = -0.00867336. 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 = -0.00901645. 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 = -0.0117958. 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 = -0.00961095. 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 = -0.00875713. 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 = -0.00451898. 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 = -0.0111563. 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 = -0.0108317. 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 = -0.00480811. 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 = -0.00894258. 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 = -0.00402874. 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 = -0.00353272. 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 = -0.00986992. 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 = -0.00229. 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 = -0.00400063. 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 = -0.00655777. 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 = -0.0131117. 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 = 0.00100033. 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 = -0.00372123. 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 = -0.00633344. 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 = -0.00801992. 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 = -0.00468105. 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 = -0.00380749. 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 = -0.00413893. 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 = -0.00491676. 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 = -0.0059265. 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 = -0.00544992. 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 = -0.00182053. 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 = -0.00873984. 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 = -0.0105716. 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 = -0.0115397. 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 = -0.00173657. 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 = -0.00821295. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00219029. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.00424778. 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 = -0.00515801. 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,305613664,20.6289,18.4121,; Warning: NPV is $-1.3324e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.22133e+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 = -0.001919. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00513663. 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 mass flow rate only reached a convergence = 0.00270916. 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 = -0.00273825. 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 = -0.00792677. 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 = -0.00255381. 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 = -0.0073258. 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 = -0.0105261. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0107458. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2030 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00113321. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.0031316. 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 = -0.0058173. 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 = -0.00629212. 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 = -0.00329823. 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 = -0.0097137. 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 = -0.0119043. 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 = -0.00257076. 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 = -0.0137852. 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 = -0.00504223. 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 = -0.00883644. 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 = -0.0081779. 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 = -0.00914113. 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 = -0.00205972. 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 = -0.00643244. 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 = -0.00871218. 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 = -0.00897598. 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 = -0.00834128. 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 = -0.0100348. 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 = -0.011032. 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 = -0.00376405. 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 = -0.0148426. 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 = -0.00379054. 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 = -0.00260892. 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 = -0.012653. 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 = -0.0085384. 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 = -0.00173232. 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 = -0.00167567. 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 = -0.00505024. 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 = -0.00120631. 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 = -0.00867336. 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 = -0.00901645. 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 = -0.0117958. 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 = -0.00961095. 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 = -0.00875713. 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 = -0.00451898. 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 = -0.0111563. 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 = -0.0108317. 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 = -0.00480811. 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 = -0.00894258. 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 = -0.00402874. 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 = -0.00353272. 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 = -0.00986992. 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 = -0.00229. 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 = -0.00400063. 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 = -0.00655777. 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 = -0.0131117. 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 = 0.00100033. 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 = -0.00372123. 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 = -0.00633344. 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 = -0.00801992. 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 = -0.00468105. 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 = -0.00380749. 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 = -0.00413893. 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 = -0.00491676. 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 = -0.0059265. 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 = -0.00544992. 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 = -0.00182053. 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 = -0.00873984. 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 = -0.0105716. 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 = -0.0115397. 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 = -0.00173657. 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 = -0.00821295. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00219029. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.00424778. 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 = -0.00515801. 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,305613664,20.7957,18.4121,; Warning: NPV is $-8.65632e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-2.14615e+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 = -0.001919. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1647 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00513663. 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 mass flow rate only reached a convergence = 0.00270916. 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 = -0.00273825. 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 = -0.00792677. 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 = -0.00255381. 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 = -0.0073258. 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 = -0.0105261. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2006 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0107458. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2030 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00113321. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.0031316. 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 = -0.0058173. 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 = -0.00629212. 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 = -0.00329823. 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 = -0.0097137. 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 = -0.0119043. 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 = -0.00257076. 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 = -0.0137852. 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 = -0.00504223. 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 = -0.00883644. 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 = -0.0081779. 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 = -0.00914113. 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 = -0.00205972. 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 = -0.00643244. 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 = -0.00871218. 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 = -0.00897598. 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 = -0.00834128. 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 = -0.0100348. 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 = -0.011032. 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 = -0.00376405. 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 = -0.0148426. 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 = -0.00379054. 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 = -0.00260892. 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 = -0.012653. 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 = -0.0085384. 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 = -0.00173232. 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 = -0.00167567. 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 = -0.00505024. 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 = -0.00120631. 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 = -0.00867336. 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 = -0.00901645. 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 = -0.0117958. 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 = -0.00961095. 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 = -0.00875713. 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 = -0.00451898. 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 = -0.0111563. 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 = -0.0108317. 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 = -0.00480811. 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 = -0.00894258. 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 = -0.00402874. 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 = -0.00353272. 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 = -0.00986992. 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 = -0.00229. 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 = -0.00400063. 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 = -0.00655777. 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 = -0.0131117. 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 = 0.00100033. 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 = -0.00372123. 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 = -0.00633344. 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 = -0.00801992. 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 = -0.00468105. 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 = -0.00380749. 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 = -0.00413893. 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 = -0.00491676. 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 = -0.0059265. 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 = -0.00544992. 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 = -0.00182053. 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 = -0.00873984. 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 = -0.0105716. 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 = -0.0115397. 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 = -0.00173657. 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 = -0.00821295. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6422 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00219029. Check that results at this timestep are not unreasonably biasing total simulation results 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 = -0.00424778. 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 = -0.00515801. 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.
DSLF,Leveraged Partnership Flip,234568960,16.6188,16.0294,; 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 $-1.6401e+07. A negative NPV indicates project costs are higher than revenues.
DSLF,All Equity Partnership Flip,234568960,17.997,16.0294,; Warning: NPV is $-3.76064e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-3.35637e+07. A negative NPV indicates project costs are higher than revenues.
DSLF,Sale Leaseback,234568960,17.6815,13.7549,; 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 $-9.23514e+07. A negative NPV indicates project costs are higher than revenues.
DSLF,LCOE Calculator,234568960,NA,NA,;
DSLF,None,234568960,NA,NA,;
Generic CSP System,Commercial,592360448,5.05926,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,Single Owner,592360448,11.4407,11.2639,; Warning: NPV is $-1.02732e+07. 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,Merchant Plant,592360448,10.5044,NA,; Warning: NPV is $-3.87442e+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,Leveraged Partnership Flip,592360448,11.6567,11.2639,; 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 $-3.2104e+07. 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,All Equity Partnership Flip,592360448,12.8552,11.2639,; 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 $-1.04759e+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,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,1496956800,NA,NA,;
MSPT IPH,LCOH Calculator,1496956800,NA,NA,;
Physical Trough IPH,None,24057538,NA,NA,;
Physical Trough IPH,LCOH Calculator,24057538,NA,NA,;
DSGL IPH,None,10833103,NA,NA,;
DSGL IPH,LCOH Calculator,10833103,NA,NA,;
MSLF IPH,None,926623360,NA,NA,; 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 = 1456 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 = 0.00453542. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1648 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 = 0.00226743. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2318 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 = 0.00471913. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3613 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 = 0.00356292. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4142 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 = 0.00415087. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4647 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 = -0.00171912. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5078 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 = 0.00274341. Check that results at this timestep are not unreasonably biasing total simulation results
MSLF IPH,LCOH Calculator,926623360,NA,NA,; 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 = 1456 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 = 0.00453542. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1648 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 = 0.00226743. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2318 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 = 0.00471913. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3613 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 = 0.00356292. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4142 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 = 0.00415087. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4647 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 = -0.00171912. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5078 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 = 0.00274341. Check that results at this timestep are not unreasonably biasing total simulation results
MEwave,Single Owner,65589748,62.0203,60.3986,; Warning: NPV is $-1.18208e+07. A negative NPV indicates project costs are higher than revenues.
MEwave,LCOE Calculator,59434320,NA,NA,;
MEwave,None,594343,NA,NA,;
MEwave Battery,Single Owner,64951112,63.8156,60.3969,; Warning: NPV is $-2.46869e+07. A negative NPV indicates project costs are higher than revenues.
MEtidal,LCOE Calculator,2.16152e+06,NA,NA,;
MEtidal,None,2.16152e+06,NA,NA,;
Wind Power,Residential,48358.4,21.9797,NA,;
Wind Power,Commercial,327922,8.85854,NA,;
Wind Power,Single Owner,818888256,2.64444,4.33226,;
Wind Power,Merchant Plant,818888256,2.54444,NA,;
Wind Power,Leveraged Partnership Flip,818888256,2.73524,4.33226,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs.
Wind Power,All Equity Partnership Flip,818888256,3.18297,4.33226,;
Wind Power,Sale Leaseback,818888256,3.55152,4.33226,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs.
Wind Power,LCOE Calculator,818888256,NA,NA,;
Wind Power,None,201595968,NA,NA,;
Fuel Cell,Commercial,1.93478e+06,9.7631,NA,;
Fuel Cell,Single Owner,213583472,11.1789,6.53631,; 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 $-9.63738e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,Single Owner,248258560,11.1464,8.61147,; Warning: NPV is $-5.53849e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,Merchant Plant,248258560,10.542,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 $-1.45989e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -3.64621. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Geothermal Power,Leveraged Partnership Flip,248258560,11.3103,8.61147,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-5.77863e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,All Equity Partnership Flip,248258560,11.814,8.61147,; 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 $-6.76107e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.8788e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,Sale Leaseback,248258560,11.8576,8.61147,; Warning: NPV is $-7.17299e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,LCOE Calculator,248204544,NA,NA,;
Geothermal Power,None,248204544,NA,NA,;
Solar Water Heating,Residential,2252.04,33.2105,NA,;
Solar Water Heating,Commercial,2252.12,21.3306,NA,;
Solar Water Heating,LCOE Calculator,2281.61,NA,NA,;
Solar Water Heating,None,2281.61,NA,NA,;
Biopower,Single Owner,353982848,13.738,12.9968,; Warning: NPV is $-2.56481e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,Merchant Plant,353982848,12.2276,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 $-2.8991e+08. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -55.1268. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Biopower,Leveraged Partnership Flip,353982848,13.3726,12.9968,; 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 $-1.27447e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,All Equity Partnership Flip,353982848,13.6912,12.9968,; Warning: NPV is $-2.37165e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,Sale Leaseback,353982848,13.4654,12.9968,; 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 $-1.88054e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.94938e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,LCOE Calculator,353982848,NA,NA,;
Biopower,None,353982848,NA,NA,;
Custom Generation Profile,Residential,1513728,26.865,NA,;
Custom Generation Profile,Commercial,35591988,25.2499,NA,;
Custom Generation Profile,Third Party,30274.6,NA,NA,;
Custom Generation Profile,Host Developer,73469696,13.7297,13.5556,; 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 $-1.25018e+06. A negative NPV indicates project costs are higher than revenues.
Custom Generation Profile,Single Owner,756864000,27.693,25.9936,; Warning: NPV is $-1.25729e+08. A negative NPV indicates project costs are higher than revenues.
Custom Generation Profile,Merchant Plant,756864000,25.2964,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 $-1.58573e+09. A negative NPV indicates project costs are higher than revenues. Warning: Debt percent is -48.2713. A debt percent less than 0% may indicate the mininum EBITDA cannot support any debt in at least one year.
Custom Generation Profile,Leveraged Partnership Flip,840960000,26.6796,25.9936,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-5.52669e+07. A negative NPV indicates project costs are higher than revenues.
Custom Generation Profile,All Equity Partnership Flip,756864000,29.9102,25.9936,; Warning: IRR at end of analysis period is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: IRR in target year is not a number (NaN). This can indicate that revenues are too low to cover costs, or that they are excessively high compared to costs. Warning: NPV is $-3.05454e+08. A negative NPV indicates project costs are higher than revenues.
Custom Generation Profile,Sale Leaseback,756864000,29.5291,25.9936,; Warning: NPV is $-2.70226e+08. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-3.1105e+07. A negative NPV indicates project costs are higher than revenues.
Custom Generation Profile,LCOE Calculator,756864000,NA,NA,;
Custom Generation Profile,None,756864000,NA,NA,;
PVWatts Wind Battery Hybrid,Single Owner,578947712,10.0452,5.91842,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
PVWatts Wind Battery Hybrid,Host Developer,1.12611e+06,18.2556,16.542,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
PVWatts Wind FuelCell Battery Hybrid,Single Owner,579702464,10.6142,5.41105,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
PVWatts Wind FuelCell Battery Hybrid,Host Developer,2.6881e+06,46.0485,47.5122,; Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
Photovoltaic Wind Battery Hybrid,Single Owner,594135232,8.54916,5.95229,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower.
Photovoltaic Wind Battery Hybrid,Host Developer,1.01701e+06,18.3122,16.5709,; Notice: Simulation time step is 60 minutes for pvsamv1. Notice: Simulation time step is 60 minutes for windpower.
CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Single Owner,1337373696,11.9763,5.41348,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
CustomGeneration PVWatts Wind FuelCell Battery Hybrid,Host Developer,759756800,1.01012,1.01835,; Notice: Simulation time step is 60 minutes for custom_generation. Notice: Simulation time step is 60 minutes for pvwattsv8. Notice: Simulation time step is 60 minutes for windpower.
final_configuration_eof,none,NA,NA,NA,