-
Notifications
You must be signed in to change notification settings - Fork 0
/
Copy pathtest_results_linux64.csv
We can make this file beautiful and searchable if this error is corrected: It looks like row 8 should actually have 6 columns, instead of 7 in line 7.
161 lines (161 loc) · 282 KB
/
test_results_linux64.csv
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
TECHNOLOGY,FINANCING,ANNUAL_OUTPUT,LCOE_NOM,LPPA_NOM,MESSAGES
Flat Plate PV,Residential,13255.8,7.06599,NA,;
Flat Plate PV,Commercial,929823,1.95697,NA,;
Flat Plate PV,Third Party,11330,NA,NA,;
Flat Plate PV,Host Developer,929823,10.5056,11.4553,;
Flat Plate PV,Single Owner,225585600,3.97514,4.32337,;
Flat Plate PV,Merchant Plant,225585600,4.17768,NA,; Warning: NPV is $-4.25493e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,Leveraged Partnership Flip,225585600,4.07084,4.32337,; 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.
Flat Plate PV,All Equity Partnership Flip,225585600,5.15242,4.32337,; 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 $-1.93211e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,Sale Leaseback,225585600,5.82905,4.32337,; 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 $-3.22067e+07. A negative NPV indicates project costs are higher than revenues.
Flat Plate PV,LCOE Calculator,225585600,NA,NA,;
Flat Plate PV,None,182227280,NA,NA,;
PVWatts,Residential,13904.2,7.67625,NA,;
PVWatts,Commercial,938536,2.08588,NA,;
PVWatts,Third Party,11123.4,NA,NA,;
PVWatts,Host Developer,938536,11.0189,11.9607,;
PVWatts,Single Owner,211903840,4.27177,4.32315,;
PVWatts,Community Solar,211903840,3.82267,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 $-4.70231e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Merchant Plant,211903840,4.4762,NA,; Warning: NPV is $-4.65944e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Leveraged Partnership Flip,211903840,4.374,4.32315,; 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 $-992955. A negative NPV indicates project costs are higher than revenues.
PVWatts,All Equity Partnership Flip,211903840,5.4244,4.32315,; Warning: NPV is $-2.09877e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,Sale Leaseback,211903840,6.14718,4.32315,; 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 $-3.65059e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts,LCOE Calculator,211903840,NA,NA,;
PVWatts,None,173803024,NA,NA,;
High-X Concentrating PV,Single Owner,2390708,16.6513,25.9389,; Warning: IRR at end of analysis period is 74.0142%. A high IRR may indicate a project with unrealistically high returns. Warning: IRR in target year is 74.0134%. A high IRR may indicate a project with unrealistically high returns.
High-X Concentrating PV,Merchant Plant,2390708,18.5208,NA,; Warning: NPV is $-3.72956e+06. A negative NPV indicates project costs are higher than revenues.
High-X Concentrating PV,Leveraged Partnership Flip,2390708,18.0025,25.9389,; 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,2390708,25.0688,25.9389,;
High-X Concentrating PV,Sale Leaseback,2390708,25.4259,25.9389,;
High-X Concentrating PV,LCOE Calculator,2390708,NA,NA,;
High-X Concentrating PV,None,2390708,NA,NA,;
PV Battery,Residential,13089.6,12.3887,NA,;
PV Battery,Commercial,920305,6.70964,NA,;
PV Battery,Third Party,35730.4,NA,NA,;
PV Battery,Host Developer,920305,15.9067,16.21,;
PV Battery,Single Owner,217336480,7.98151,8.8994,;
PV Battery,Merchant Plant,217336480,8.57725,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 $-1.1336e+08. A negative NPV indicates project costs are higher than revenues.
PV Battery,Leveraged Partnership Flip,217336480,6.58541,8.8994,; 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,217336480,9.24934,8.8994,; 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 $-1.08217e+07. A negative NPV indicates project costs are higher than revenues.
PV Battery,Sale Leaseback,217336480,9.94943,8.8994,; 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 $-2.17579e+07. A negative NPV indicates project costs are higher than revenues.
PVWatts Battery,Residential,13669.6,15.4129,NA,;
PVWatts Battery,Commercial,929998,13.063,NA,;
PVWatts Battery,Third Party,11003.4,NA,NA,;
PVWatts Battery,Host Developer,929998,20.5643,16.2118,; Warning: NPV is $-385041. A negative NPV indicates project costs are higher than revenues.
Generic Battery,Residential,6694.13,65.3428,NA,;
Generic Battery,Commercial,359924,41.4888,NA,;
Generic Battery,Third Party,6690.41,NA,NA,;
Generic Battery,Host Developer,359924,30.4993,16.246,; Warning: NPV is $-501667. A negative NPV indicates project costs are higher than revenues.
Generic Battery,Single Owner,31455232,79.2605,14.6211,; 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 $-1.98351e+08. A negative NPV indicates project costs are higher than revenues.
Generic Battery,Merchant Plant,31455232,80.1274,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 $-2.34976e+08. A negative NPV indicates project costs are higher than revenues.
Generic Battery,Leveraged Partnership Flip,68109312,36.3834,40.5907,; 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.
Generic Battery,All Equity Partnership Flip,68109312,45.8046,48.7088,; 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.
Generic Battery,Sale Leaseback,68109312,46.281,48.7088,; Warning: NPV is $-2.91411e+06. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,Residential,-416.207,57.0774,NA,;
Standalone Battery,Commercial,-11647,432.124,NA,;
Standalone Battery,Third Party,-218.89,NA,NA,;
Standalone Battery,Host Developer,-11647,79.1743,16.2309,; Warning: NPV is $-696806. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,Single Owner,-8397703,85.9518,88.6283,; Warning: IRR at end of analysis period is 82.4688%. A high IRR may indicate a project with unrealistically high returns. Warning: IRR in target year is 82.4686%. A high IRR may indicate a project with unrealistically high returns.
Standalone Battery,Merchant Plant,-8397703,25.7208,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 $-8.14106e+07. A negative NPV indicates project costs are higher than revenues.
Standalone Battery,Leveraged Partnership Flip,-8397703,81.3387,88.6283,; 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.
Standalone Battery,All Equity Partnership Flip,-8397703,85.2731,88.6283,; 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.
Standalone Battery,Sale Leaseback,-8397703,86.2847,88.6283,; 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 $-1.09395e+08. A negative NPV indicates project costs are higher than revenues.
ETES,Single Owner,-466213344,13.3341,7.40254,; Notice: Optimizing thermal energy dispatch profile for time window 1 - 25 Notice: Time 1 - 49: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 25 - 49 Notice: Time 25 - 73: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 49 - 73 Notice: Time 49 - 97: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 73 - 97 Notice: Time 73 - 121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 97 - 121 Notice: Time 97 - 145: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 121 - 145 Notice: Time 121 - 169: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 145 - 169 Notice: Time 145 - 193: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 169 - 193 Notice: Time 169 - 217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 193 - 217 Notice: Time 193 - 241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 217 - 241 Notice: Time 217 - 265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 241 - 265 Notice: Time 241 - 289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 265 - 289 Notice: Time 265 - 313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 289 - 313 Notice: Time 289 - 337: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 313 - 337 Notice: Time 313 - 361: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 337 - 361 Notice: Time 337 - 385: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 361 - 385 Notice: Time 361 - 409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 385 - 409 Notice: Time 385 - 433: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 409 - 433 Notice: Time 409 - 457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 433 - 457 Notice: Time 433 - 481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 457 - 481 Notice: Time 457 - 505: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 481 - 505 Notice: Time 481 - 529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 505 - 529 Notice: Time 505 - 553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 529 - 553 Notice: Time 529 - 577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 553 - 577 Notice: Time 553 - 601: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 577 - 601 Notice: Time 577 - 625: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 601 - 625 Notice: Time 601 - 649: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 625 - 649 Notice: Time 625 - 673: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 649 - 673 Notice: Time 649 - 697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 673 - 697 Notice: Time 673 - 721: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 697 - 721 Notice: Time 697 - 745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 721 - 745 Notice: Time 721 - 769: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 745 - 769 Notice: Time 745 - 793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 769 - 793 Notice: Time 769 - 817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 793 - 817 Notice: Time 793 - 841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 817 - 841 Notice: Time 817 - 865: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 841 - 865 Notice: Time 841 - 889: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 865 - 889 Notice: Time 865 - 913: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 889 - 913 Notice: Time 889 - 937: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 913 - 937 Notice: Time 913 - 961: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 937 - 961 Notice: Time 937 - 985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 961 - 985 Notice: Time 961 - 1009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 985 - 1009 Notice: Time 985 - 1033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1009 - 1033 Notice: Time 1009 - 1057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1033 - 1057 Notice: Time 1033 - 1081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1057 - 1081 Notice: Time 1057 - 1105: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1081 - 1105 Notice: Time 1081 - 1129: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1105 - 1129 Notice: Time 1105 - 1153: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1129 - 1153 Notice: Time 1129 - 1177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1153 - 1177 Notice: Time 1153 - 1201: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1177 - 1201 Notice: Time 1177 - 1225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1201 - 1225 Notice: Time 1201 - 1249: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1225 - 1249 Notice: Time 1225 - 1273: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1249 - 1273 Notice: Time 1249 - 1297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1273 - 1297 Notice: Time 1273 - 1321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1297 - 1321 Notice: Time 1297 - 1345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1321 - 1345 Notice: Time 1321 - 1369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1345 - 1369 Notice: Time 1345 - 1393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1369 - 1393 Notice: Time 1369 - 1417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1393 - 1417 Notice: Time 1393 - 1441: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1417 - 1441 Notice: Time 1417 - 1465: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1441 - 1465 Notice: Time 1441 - 1489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1465 - 1489 Notice: Time 1465 - 1513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1489 - 1513 Notice: Time 1489 - 1537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1513 - 1537 Notice: Time 1513 - 1561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1537 - 1561 Notice: Time 1537 - 1585: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1561 - 1585 Notice: Time 1561 - 1609: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1585 - 1609 Notice: Time 1585 - 1633: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1609 - 1633 Notice: Time 1609 - 1657: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1633 - 1657 Notice: Time 1633 - 1681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1657 - 1681 Notice: Time 1657 - 1705: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1681 - 1705 Notice: Time 1681 - 1729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1705 - 1729 Notice: Time 1705 - 1753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1729 - 1753 Notice: Time 1729 - 1777: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1753 - 1777 Notice: Time 1753 - 1801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1777 - 1801 Notice: Time 1777 - 1825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1801 - 1825 Notice: Time 1801 - 1849: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1825 - 1849 Notice: Time 1825 - 1873: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1849 - 1873 Notice: Time 1849 - 1897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1873 - 1897 Notice: Time 1873 - 1921: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1897 - 1921 Notice: Time 1897 - 1945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1921 - 1945 Notice: Time 1921 - 1969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1945 - 1969 Notice: Time 1945 - 1993: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1969 - 1993 Notice: Time 1969 - 2017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1993 - 2017 Notice: Time 1993 - 2041: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2017 - 2041 Notice: Time 2017 - 2065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2041 - 2065 Notice: Time 2041 - 2089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2065 - 2089 Notice: Time 2065 - 2113: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2089 - 2113 Notice: Time 2089 - 2137: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2113 - 2137 Notice: Time 2113 - 2161: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2137 - 2161 Notice: Time 2137 - 2185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2161 - 2185 Notice: Time 2161 - 2209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2185 - 2209 Notice: Time 2185 - 2233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2209 - 2233 Notice: Time 2209 - 2257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2233 - 2257 Notice: Time 2233 - 2281: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2257 - 2281 Notice: Time 2257 - 2305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2281 - 2305 Notice: Time 2281 - 2329: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2305 - 2329 Notice: Time 2305 - 2353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2329 - 2353 Notice: Time 2329 - 2377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2353 - 2377 Notice: Time 2353 - 2401: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2377 - 2401 Notice: Time 2377 - 2425: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2401 - 2425 Notice: Time 2401 - 2449: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2425 - 2449 Notice: Time 2425 - 2473: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2449 - 2473 Notice: Time 2449 - 2497: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2473 - 2497 Notice: Time 2473 - 2521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2497 - 2521 Notice: Time 2497 - 2545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2521 - 2545 Notice: Time 2521 - 2569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2545 - 2569 Notice: Time 2545 - 2593: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2569 - 2593 Notice: Time 2569 - 2617: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2593 - 2617 Notice: Time 2593 - 2641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2617 - 2641 Notice: Time 2617 - 2665: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2641 - 2665 Notice: Time 2641 - 2689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2665 - 2689 Notice: Time 2665 - 2713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2689 - 2713 Notice: Time 2689 - 2737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2713 - 2737 Notice: Time 2713 - 2761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2737 - 2761 Notice: Time 2737 - 2785: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2761 - 2785 Notice: Time 2761 - 2809: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2785 - 2809 Notice: Time 2785 - 2833: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2809 - 2833 Notice: Time 2809 - 2857: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2833 - 2857 Notice: Time 2833 - 2881: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2857 - 2881 Notice: Time 2857 - 2905: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2881 - 2905 Notice: Time 2881 - 2929: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2905 - 2929 Notice: Time 2905 - 2953: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2929 - 2953 Notice: Time 2929 - 2977: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2953 - 2977 Notice: Time 2953 - 3001: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2977 - 3001 Notice: Time 2977 - 3025: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3001 - 3025 Notice: Time 3001 - 3049: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3025 - 3049 Notice: Time 3025 - 3073: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3049 - 3073 Notice: Time 3049 - 3097: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3073 - 3097 Notice: Time 3073 - 3121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3097 - 3121 Notice: Time 3097 - 3145: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3121 - 3145 Notice: Time 3121 - 3169: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3145 - 3169 Notice: Time 3145 - 3193: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3169 - 3193 Notice: Time 3169 - 3217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3193 - 3217 Notice: Time 3193 - 3241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3217 - 3241 Notice: Time 3217 - 3265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3241 - 3265 Notice: Time 3241 - 3289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3265 - 3289 Notice: Time 3265 - 3313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3289 - 3313 Notice: Time 3289 - 3337: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3313 - 3337 Notice: Time 3313 - 3361: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3337 - 3361 Notice: Time 3337 - 3385: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3361 - 3385 Notice: Time 3361 - 3409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3385 - 3409 Notice: Time 3385 - 3433: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3409 - 3433 Notice: Time 3409 - 3457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3433 - 3457 Notice: Time 3433 - 3481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3457 - 3481 Notice: Time 3457 - 3505: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3481 - 3505 Notice: Time 3481 - 3529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3505 - 3529 Notice: Time 3505 - 3553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3529 - 3553 Notice: Time 3529 - 3577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3553 - 3577 Notice: Time 3553 - 3601: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3577 - 3601 Notice: Time 3577 - 3625: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3601 - 3625 Notice: Time 3601 - 3649: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3625 - 3649 Notice: Time 3625 - 3673: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3649 - 3673 Notice: Time 3649 - 3697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3673 - 3697 Notice: Time 3673 - 3721: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3697 - 3721 Notice: Time 3697 - 3745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3721 - 3745 Notice: Time 3721 - 3769: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3745 - 3769 Notice: Time 3745 - 3793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3769 - 3793 Notice: Time 3769 - 3817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3793 - 3817 Notice: Time 3793 - 3841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3817 - 3841 Notice: Time 3817 - 3865: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3841 - 3865 Notice: Time 3841 - 3889: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3865 - 3889 Notice: Time 3865 - 3913: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3889 - 3913 Notice: Time 3889 - 3937: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3913 - 3937 Notice: Time 3913 - 3961: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3937 - 3961 Notice: Time 3937 - 3985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3961 - 3985 Notice: Time 3961 - 4009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3985 - 4009 Notice: Time 3985 - 4033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4009 - 4033 Notice: Time 4009 - 4057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4033 - 4057 Notice: Time 4033 - 4081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4057 - 4081 Notice: Time 4057 - 4105: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4081 - 4105 Notice: Time 4081 - 4129: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4105 - 4129 Notice: Time 4105 - 4153: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4129 - 4153 Notice: Time 4129 - 4177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4153 - 4177 Notice: Time 4153 - 4201: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4177 - 4201 Notice: Time 4177 - 4225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4201 - 4225 Notice: Time 4201 - 4249: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4225 - 4249 Notice: Time 4225 - 4273: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4249 - 4273 Notice: Time 4249 - 4297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4273 - 4297 Notice: Time 4273 - 4321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4297 - 4321 Notice: Time 4297 - 4345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4321 - 4345 Notice: Time 4321 - 4369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4345 - 4369 Notice: Time 4345 - 4393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4369 - 4393 Notice: Time 4369 - 4417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4393 - 4417 Notice: Time 4393 - 4441: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4417 - 4441 Notice: Time 4417 - 4465: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4441 - 4465 Notice: Time 4441 - 4489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4465 - 4489 Notice: Time 4465 - 4513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4489 - 4513 Notice: Time 4489 - 4537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4513 - 4537 Notice: Time 4513 - 4561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4537 - 4561 Notice: Time 4537 - 4585: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4561 - 4585 Notice: Time 4561 - 4609: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4585 - 4609 Notice: Time 4585 - 4633: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4609 - 4633 Notice: Time 4609 - 4657: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4633 - 4657 Notice: Time 4633 - 4681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4657 - 4681 Notice: Time 4657 - 4705: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4681 - 4705 Notice: Time 4681 - 4729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4705 - 4729 Notice: Time 4705 - 4753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4729 - 4753 Notice: Time 4729 - 4777: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4753 - 4777 Notice: Time 4753 - 4801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4777 - 4801 Notice: Time 4777 - 4825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4801 - 4825 Notice: Time 4801 - 4849: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4825 - 4849 Notice: Time 4825 - 4873: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4849 - 4873 Notice: Time 4849 - 4897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4873 - 4897 Notice: Time 4873 - 4921: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4897 - 4921 Notice: Time 4897 - 4945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4921 - 4945 Notice: Time 4921 - 4969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4945 - 4969 Notice: Time 4945 - 4993: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4969 - 4993 Notice: Time 4969 - 5017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4993 - 5017 Notice: Time 4993 - 5041: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5017 - 5041 Notice: Time 5017 - 5065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5041 - 5065 Notice: Time 5041 - 5089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5065 - 5089 Notice: Time 5065 - 5113: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5089 - 5113 Notice: Time 5089 - 5137: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5113 - 5137 Notice: Time 5113 - 5161: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5137 - 5161 Notice: Time 5137 - 5185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5161 - 5185 Notice: Time 5161 - 5209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5185 - 5209 Notice: Time 5185 - 5233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5209 - 5233 Notice: Time 5209 - 5257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5233 - 5257 Notice: Time 5233 - 5281: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5257 - 5281 Notice: Time 5257 - 5305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5281 - 5305 Notice: Time 5281 - 5329: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5305 - 5329 Notice: Time 5305 - 5353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5329 - 5353 Notice: Time 5329 - 5377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5353 - 5377 Notice: Time 5353 - 5401: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5377 - 5401 Notice: Time 5377 - 5425: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5401 - 5425 Notice: Time 5401 - 5449: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5425 - 5449 Notice: Time 5425 - 5473: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5449 - 5473 Notice: Time 5449 - 5497: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5473 - 5497 Notice: Time 5473 - 5521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5497 - 5521 Notice: Time 5497 - 5545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5521 - 5545 Notice: Time 5521 - 5569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5545 - 5569 Notice: Time 5545 - 5593: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5569 - 5593 Notice: Time 5569 - 5617: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5593 - 5617 Notice: Time 5593 - 5641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5617 - 5641 Notice: Time 5617 - 5665: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5641 - 5665 Notice: Time 5641 - 5689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5665 - 5689 Notice: Time 5665 - 5713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5689 - 5713 Notice: Time 5689 - 5737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5713 - 5737 Notice: Time 5713 - 5761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5737 - 5761 Notice: Time 5737 - 5785: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5761 - 5785 Notice: Time 5761 - 5809: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5785 - 5809 Notice: Time 5785 - 5833: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5809 - 5833 Notice: Time 5809 - 5857: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5833 - 5857 Notice: Time 5833 - 5881: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5857 - 5881 Notice: Time 5857 - 5905: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5881 - 5905 Notice: Time 5881 - 5929: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5905 - 5929 Notice: Time 5905 - 5953: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5929 - 5953 Notice: Time 5929 - 5977: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5953 - 5977 Notice: Time 5953 - 6001: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5977 - 6001 Notice: Time 5977 - 6025: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6001 - 6025 Notice: Time 6001 - 6049: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6025 - 6049 Notice: Time 6025 - 6073: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6049 - 6073 Notice: Time 6049 - 6097: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6073 - 6097 Notice: Time 6073 - 6121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6097 - 6121 Notice: Time 6097 - 6145: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6121 - 6145 Notice: Time 6121 - 6169: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6145 - 6169 Notice: Time 6145 - 6193: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6169 - 6193 Notice: Time 6169 - 6217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6193 - 6217 Notice: Time 6193 - 6241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6217 - 6241 Notice: Time 6217 - 6265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6241 - 6265 Notice: Time 6241 - 6289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6265 - 6289 Notice: Time 6265 - 6313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6289 - 6313 Notice: Time 6289 - 6337: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6313 - 6337 Notice: Time 6313 - 6361: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6337 - 6361 Notice: Time 6337 - 6385: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6361 - 6385 Notice: Time 6361 - 6409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6385 - 6409 Notice: Time 6385 - 6433: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6409 - 6433 Notice: Time 6409 - 6457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6433 - 6457 Notice: Time 6433 - 6481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6457 - 6481 Notice: Time 6457 - 6505: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6481 - 6505 Notice: Time 6481 - 6529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6505 - 6529 Notice: Time 6505 - 6553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6529 - 6553 Notice: Time 6529 - 6577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6553 - 6577 Notice: Time 6553 - 6601: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6577 - 6601 Notice: Time 6577 - 6625: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6601 - 6625 Notice: Time 6601 - 6649: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6625 - 6649 Notice: Time 6625 - 6673: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6649 - 6673 Notice: Time 6649 - 6697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6673 - 6697 Notice: Time 6673 - 6721: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6697 - 6721 Notice: Time 6697 - 6745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6721 - 6745 Notice: Time 6721 - 6769: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6745 - 6769 Notice: Time 6745 - 6793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6769 - 6793 Notice: Time 6769 - 6817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6793 - 6817 Notice: Time 6793 - 6841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6817 - 6841 Notice: Time 6817 - 6865: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6841 - 6865 Notice: Time 6841 - 6889: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6865 - 6889 Notice: Time 6865 - 6913: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6889 - 6913 Notice: Time 6889 - 6937: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6913 - 6937 Notice: Time 6913 - 6961: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6937 - 6961 Notice: Time 6937 - 6985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6961 - 6985 Notice: Time 6961 - 7009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6985 - 7009 Notice: Time 6985 - 7033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7009 - 7033 Notice: Time 7009 - 7057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7033 - 7057 Notice: Time 7033 - 7081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7057 - 7081 Notice: Time 7057 - 7105: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7081 - 7105 Notice: Time 7081 - 7129: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7105 - 7129 Notice: Time 7105 - 7153: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7129 - 7153 Notice: Time 7129 - 7177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7153 - 7177 Notice: Time 7153 - 7201: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7177 - 7201 Notice: Time 7177 - 7225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7201 - 7225 Notice: Time 7201 - 7249: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7225 - 7249 Notice: Time 7225 - 7273: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7249 - 7273 Notice: Time 7249 - 7297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7273 - 7297 Notice: Time 7273 - 7321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7297 - 7321 Notice: Time 7297 - 7345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7321 - 7345 Notice: Time 7321 - 7369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7345 - 7369 Notice: Time 7345 - 7393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7369 - 7393 Notice: Time 7369 - 7417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7393 - 7417 Notice: Time 7393 - 7441: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7417 - 7441 Notice: Time 7417 - 7465: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7441 - 7465 Notice: Time 7441 - 7489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7465 - 7489 Notice: Time 7465 - 7513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7489 - 7513 Notice: Time 7489 - 7537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7513 - 7537 Notice: Time 7513 - 7561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7537 - 7561 Notice: Time 7537 - 7585: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7561 - 7585 Notice: Time 7561 - 7609: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7585 - 7609 Notice: Time 7585 - 7633: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7609 - 7633 Notice: Time 7609 - 7657: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7633 - 7657 Notice: Time 7633 - 7681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7657 - 7681 Notice: Time 7657 - 7705: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7681 - 7705 Notice: Time 7681 - 7729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7705 - 7729 Notice: Time 7705 - 7753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7729 - 7753 Notice: Time 7729 - 7777: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7753 - 7777 Notice: Time 7753 - 7801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7777 - 7801 Notice: Time 7777 - 7825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7801 - 7825 Notice: Time 7801 - 7849: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7825 - 7849 Notice: Time 7825 - 7873: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7849 - 7873 Notice: Time 7849 - 7897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7873 - 7897 Notice: Time 7873 - 7921: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7897 - 7921 Notice: Time 7897 - 7945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7921 - 7945 Notice: Time 7921 - 7969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7945 - 7969 Notice: Time 7945 - 7993: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7969 - 7993 Notice: Time 7969 - 8017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7993 - 8017 Notice: Time 7993 - 8041: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8017 - 8041 Notice: Time 8017 - 8065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8041 - 8065 Notice: Time 8041 - 8089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8065 - 8089 Notice: Time 8065 - 8113: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8089 - 8113 Notice: Time 8089 - 8137: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8113 - 8137 Notice: Time 8113 - 8161: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8137 - 8161 Notice: Time 8137 - 8185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8161 - 8185 Notice: Time 8161 - 8209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8185 - 8209 Notice: Time 8185 - 8233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8209 - 8233 Notice: Time 8209 - 8257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8233 - 8257 Notice: Time 8233 - 8281: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8257 - 8281 Notice: Time 8257 - 8305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8281 - 8305 Notice: Time 8281 - 8329: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8305 - 8329 Notice: Time 8305 - 8353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8329 - 8353 Notice: Time 8329 - 8377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8353 - 8377 Notice: Time 8353 - 8401: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8377 - 8401 Notice: Time 8377 - 8425: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8401 - 8425 Notice: Time 8401 - 8449: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8425 - 8449 Notice: Time 8425 - 8473: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8449 - 8473 Notice: Time 8449 - 8497: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8473 - 8497 Notice: Time 8473 - 8521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8497 - 8521 Notice: Time 8497 - 8545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8521 - 8545 Notice: Time 8521 - 8569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8545 - 8569 Notice: Time 8545 - 8593: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8569 - 8593 Notice: Time 8569 - 8617: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8593 - 8617 Notice: Time 8593 - 8641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8617 - 8641 Notice: Time 8617 - 8665: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8641 - 8665 Notice: Time 8641 - 8689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8665 - 8689 Notice: Time 8665 - 8713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8689 - 8713 Notice: Time 8689 - 8737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8713 - 8737 Notice: Time 8713 - 8761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8737 - 8761 Notice: Time 8737 - 8761: Optimal solution identified. Notice: ====== Dispatch Optimization Summary ======\ Optimal solves: 327\ Suboptimal iteration limit: 0\ Suboptimal time limit: 38\ Suboptimal user gap: 0\ Suboptimal lpsolve gap: 0
PTES,Single Owner,-197669024,16.889,10.363,; Notice: Optimizing thermal energy dispatch profile for time window 1 - 25 Notice: Time 1 - 49: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 25 - 49 Notice: Time 25 - 73: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 49 - 73 Notice: Time 49 - 97: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 73 - 97 Notice: Time 73 - 121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 97 - 121 Notice: Time 97 - 145: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 121 - 145 Notice: Time 121 - 169: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 145 - 169 Notice: Time 145 - 193: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 169 - 193 Notice: Time 169 - 217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 193 - 217 Notice: Time 193 - 241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 217 - 241 Notice: Time 217 - 265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 241 - 265 Notice: Time 241 - 289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 265 - 289 Notice: Time 265 - 313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 289 - 313 Notice: Time 289 - 337: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 313 - 337 Notice: Time 313 - 361: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 337 - 361 Notice: Time 337 - 385: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 361 - 385 Notice: Time 361 - 409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 385 - 409 Notice: Time 385 - 433: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 409 - 433 Notice: Time 409 - 457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 433 - 457 Notice: Time 433 - 481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 457 - 481 Notice: Time 457 - 505: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 481 - 505 Notice: Time 481 - 529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 505 - 529 Notice: Time 505 - 553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 529 - 553 Notice: Time 529 - 577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 553 - 577 Notice: Time 553 - 601: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 577 - 601 Notice: Time 577 - 625: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 601 - 625 Notice: Time 601 - 649: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 625 - 649 Notice: Time 625 - 673: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 649 - 673 Notice: Time 649 - 697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 673 - 697 Notice: Time 673 - 721: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 697 - 721 Notice: Time 697 - 745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 721 - 745 Notice: Time 721 - 769: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 745 - 769 Notice: Time 745 - 793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 769 - 793 Notice: Time 769 - 817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 793 - 817 Notice: Time 793 - 841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 817 - 841 Notice: Time 817 - 865: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 841 - 865 Notice: Time 841 - 889: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 865 - 889 Notice: Time 865 - 913: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 889 - 913 Notice: Time 889 - 937: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 913 - 937 Notice: Time 913 - 961: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 937 - 961 Notice: Time 937 - 985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 961 - 985 Notice: Time 961 - 1009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 985 - 1009 Notice: Time 985 - 1033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1009 - 1033 Notice: Time 1009 - 1057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1033 - 1057 Notice: Time 1033 - 1081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1057 - 1081 Notice: Time 1057 - 1105: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1081 - 1105 Notice: Time 1081 - 1129: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1105 - 1129 Notice: Time 1105 - 1153: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1129 - 1153 Notice: Time 1129 - 1177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1153 - 1177 Notice: Time 1153 - 1201: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1177 - 1201 Notice: Time 1177 - 1225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1201 - 1225 Notice: Time 1201 - 1249: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1225 - 1249 Notice: Time 1225 - 1273: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1249 - 1273 Notice: Time 1249 - 1297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1273 - 1297 Notice: Time 1273 - 1321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1297 - 1321 Notice: Time 1297 - 1345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1321 - 1345 Notice: Time 1321 - 1369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1345 - 1369 Notice: Time 1345 - 1393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1369 - 1393 Notice: Time 1369 - 1417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1393 - 1417 Notice: Time 1393 - 1441: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1417 - 1441 Notice: Time 1417 - 1465: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1441 - 1465 Notice: Time 1441 - 1489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1465 - 1489 Notice: Time 1465 - 1513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1489 - 1513 Notice: Time 1489 - 1537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1513 - 1537 Notice: Time 1513 - 1561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1537 - 1561 Notice: Time 1537 - 1585: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1561 - 1585 Notice: Time 1561 - 1609: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1585 - 1609 Notice: Time 1585 - 1633: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1609 - 1633 Notice: Time 1609 - 1657: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1633 - 1657 Notice: Time 1633 - 1681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1657 - 1681 Notice: Time 1657 - 1705: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1681 - 1705 Notice: Time 1681 - 1729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1705 - 1729 Notice: Time 1705 - 1753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1729 - 1753 Notice: Time 1729 - 1777: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1753 - 1777 Notice: Time 1753 - 1801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1777 - 1801 Notice: Time 1777 - 1825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1801 - 1825 Notice: Time 1801 - 1849: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1825 - 1849 Notice: Time 1825 - 1873: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1849 - 1873 Notice: Time 1849 - 1897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1873 - 1897 Notice: Time 1873 - 1921: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1897 - 1921 Notice: Time 1897 - 1945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1921 - 1945 Notice: Time 1921 - 1969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1945 - 1969 Notice: Time 1945 - 1993: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1969 - 1993 Notice: Time 1969 - 2017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 1993 - 2017 Notice: Time 1993 - 2041: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2017 - 2041 Notice: Time 2017 - 2065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2041 - 2065 Notice: Time 2041 - 2089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2065 - 2089 Notice: Time 2065 - 2113: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2089 - 2113 Notice: Time 2089 - 2137: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2113 - 2137 Notice: Time 2113 - 2161: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2137 - 2161 Notice: Time 2137 - 2185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2161 - 2185 Notice: Time 2161 - 2209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2185 - 2209 Notice: Time 2185 - 2233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2209 - 2233 Notice: Time 2209 - 2257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2233 - 2257 Notice: Time 2233 - 2281: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2257 - 2281 Notice: Time 2257 - 2305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2281 - 2305 Notice: Time 2281 - 2329: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2305 - 2329 Notice: Time 2305 - 2353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2329 - 2353 Notice: Time 2329 - 2377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2353 - 2377 Notice: Time 2353 - 2401: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2377 - 2401 Notice: Time 2377 - 2425: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2401 - 2425 Notice: Time 2401 - 2449: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2425 - 2449 Notice: Time 2425 - 2473: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2449 - 2473 Notice: Time 2449 - 2497: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2473 - 2497 Notice: Time 2473 - 2521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2497 - 2521 Notice: Time 2497 - 2545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2521 - 2545 Notice: Time 2521 - 2569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2545 - 2569 Notice: Time 2545 - 2593: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2569 - 2593 Notice: Time 2569 - 2617: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2593 - 2617 Notice: Time 2593 - 2641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2617 - 2641 Notice: Time 2617 - 2665: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2641 - 2665 Notice: Time 2641 - 2689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2665 - 2689 Notice: Time 2665 - 2713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2689 - 2713 Notice: Time 2689 - 2737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2713 - 2737 Notice: Time 2713 - 2761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2737 - 2761 Notice: Time 2737 - 2785: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2761 - 2785 Notice: Time 2761 - 2809: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2785 - 2809 Notice: Time 2785 - 2833: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2809 - 2833 Notice: Time 2809 - 2857: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2833 - 2857 Notice: Time 2833 - 2881: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2857 - 2881 Notice: Time 2857 - 2905: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2881 - 2905 Notice: Time 2881 - 2929: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2905 - 2929 Notice: Time 2905 - 2953: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2929 - 2953 Notice: Time 2929 - 2977: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2953 - 2977 Notice: Time 2953 - 3001: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 2977 - 3001 Notice: Time 2977 - 3025: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3001 - 3025 Notice: Time 3001 - 3049: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3025 - 3049 Notice: Time 3025 - 3073: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3049 - 3073 Notice: Time 3049 - 3097: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3073 - 3097 Notice: Time 3073 - 3121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3097 - 3121 Notice: Time 3097 - 3145: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3121 - 3145 Notice: Time 3121 - 3169: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3145 - 3169 Notice: Time 3145 - 3193: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3169 - 3193 Notice: Time 3169 - 3217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3193 - 3217 Notice: Time 3193 - 3241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3217 - 3241 Notice: Time 3217 - 3265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3241 - 3265 Notice: Time 3241 - 3289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3265 - 3289 Notice: Time 3265 - 3313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3289 - 3313 Notice: Time 3289 - 3337: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3313 - 3337 Notice: Time 3313 - 3361: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3337 - 3361 Notice: Time 3337 - 3385: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3361 - 3385 Notice: Time 3361 - 3409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3385 - 3409 Notice: Time 3385 - 3433: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3409 - 3433 Notice: Time 3409 - 3457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3433 - 3457 Notice: Time 3433 - 3481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3457 - 3481 Notice: Time 3457 - 3505: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3481 - 3505 Notice: Time 3481 - 3529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3505 - 3529 Notice: Time 3505 - 3553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3529 - 3553 Notice: Time 3529 - 3577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3553 - 3577 Notice: Time 3553 - 3601: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3577 - 3601 Notice: Time 3577 - 3625: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3601 - 3625 Notice: Time 3601 - 3649: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3625 - 3649 Notice: Time 3625 - 3673: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3649 - 3673 Notice: Time 3649 - 3697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3673 - 3697 Notice: Time 3673 - 3721: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3697 - 3721 Notice: Time 3697 - 3745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3721 - 3745 Notice: Time 3721 - 3769: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3745 - 3769 Notice: Time 3745 - 3793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3769 - 3793 Notice: Time 3769 - 3817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3793 - 3817 Notice: Time 3793 - 3841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3817 - 3841 Notice: Time 3817 - 3865: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3841 - 3865 Notice: Time 3841 - 3889: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3865 - 3889 Notice: Time 3865 - 3913: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3889 - 3913 Notice: Time 3889 - 3937: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3913 - 3937 Notice: Time 3913 - 3961: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3937 - 3961 Notice: Time 3937 - 3985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3961 - 3985 Notice: Time 3961 - 4009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 3985 - 4009 Notice: Time 3985 - 4033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4009 - 4033 Notice: Time 4009 - 4057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4033 - 4057 Notice: Time 4033 - 4081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4057 - 4081 Notice: Time 4057 - 4105: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4081 - 4105 Notice: Time 4081 - 4129: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4105 - 4129 Notice: Time 4105 - 4153: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4129 - 4153 Notice: Time 4129 - 4177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4153 - 4177 Notice: Time 4153 - 4201: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4177 - 4201 Notice: Time 4177 - 4225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4201 - 4225 Notice: Time 4201 - 4249: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4225 - 4249 Notice: Time 4225 - 4273: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4249 - 4273 Notice: Time 4249 - 4297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4273 - 4297 Notice: Time 4273 - 4321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4297 - 4321 Notice: Time 4297 - 4345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4321 - 4345 Notice: Time 4321 - 4369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4345 - 4369 Notice: Time 4345 - 4393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4369 - 4393 Notice: Time 4369 - 4417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4393 - 4417 Notice: Time 4393 - 4441: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4417 - 4441 Notice: Time 4417 - 4465: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4441 - 4465 Notice: Time 4441 - 4489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4465 - 4489 Notice: Time 4465 - 4513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4489 - 4513 Notice: Time 4489 - 4537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4513 - 4537 Notice: Time 4513 - 4561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4537 - 4561 Notice: Time 4537 - 4585: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4561 - 4585 Notice: Time 4561 - 4609: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4585 - 4609 Notice: Time 4585 - 4633: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4609 - 4633 Notice: Time 4609 - 4657: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4633 - 4657 Notice: Time 4633 - 4681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4657 - 4681 Notice: Time 4657 - 4705: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4681 - 4705 Notice: Time 4681 - 4729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4705 - 4729 Notice: Time 4705 - 4753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4729 - 4753 Notice: Time 4729 - 4777: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4753 - 4777 Notice: Time 4753 - 4801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4777 - 4801 Notice: Time 4777 - 4825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4801 - 4825 Notice: Time 4801 - 4849: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4825 - 4849 Notice: Time 4825 - 4873: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4849 - 4873 Notice: Time 4849 - 4897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4873 - 4897 Notice: Time 4873 - 4921: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4897 - 4921 Notice: Time 4897 - 4945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4921 - 4945 Notice: Time 4921 - 4969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4945 - 4969 Notice: Time 4945 - 4993: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4969 - 4993 Notice: Time 4969 - 5017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 4993 - 5017 Notice: Time 4993 - 5041: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5017 - 5041 Notice: Time 5017 - 5065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5041 - 5065 Notice: Time 5041 - 5089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5065 - 5089 Notice: Time 5065 - 5113: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5089 - 5113 Notice: Time 5089 - 5137: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5113 - 5137 Notice: Time 5113 - 5161: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5137 - 5161 Notice: Time 5137 - 5185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5161 - 5185 Notice: Time 5161 - 5209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5185 - 5209 Notice: Time 5185 - 5233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5209 - 5233 Notice: Time 5209 - 5257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5233 - 5257 Notice: Time 5233 - 5281: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5257 - 5281 Notice: Time 5257 - 5305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5281 - 5305 Notice: Time 5281 - 5329: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5305 - 5329 Notice: Time 5305 - 5353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5329 - 5353 Notice: Time 5329 - 5377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5353 - 5377 Notice: Time 5353 - 5401: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5377 - 5401 Notice: Time 5377 - 5425: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5401 - 5425 Notice: Time 5401 - 5449: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5425 - 5449 Notice: Time 5425 - 5473: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5449 - 5473 Notice: Time 5449 - 5497: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5473 - 5497 Notice: Time 5473 - 5521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5497 - 5521 Notice: Time 5497 - 5545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5521 - 5545 Notice: Time 5521 - 5569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5545 - 5569 Notice: Time 5545 - 5593: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5569 - 5593 Notice: Time 5569 - 5617: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5593 - 5617 Notice: Time 5593 - 5641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5617 - 5641 Notice: Time 5617 - 5665: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5641 - 5665 Notice: Time 5641 - 5689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5665 - 5689 Notice: Time 5665 - 5713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5689 - 5713 Notice: Time 5689 - 5737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5713 - 5737 Notice: Time 5713 - 5761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5737 - 5761 Notice: Time 5737 - 5785: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5761 - 5785 Notice: Time 5761 - 5809: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5785 - 5809 Notice: Time 5785 - 5833: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5809 - 5833 Notice: Time 5809 - 5857: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5833 - 5857 Notice: Time 5833 - 5881: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5857 - 5881 Notice: Time 5857 - 5905: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5881 - 5905 Notice: Time 5881 - 5929: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5905 - 5929 Notice: Time 5905 - 5953: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5929 - 5953 Notice: Time 5929 - 5977: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5953 - 5977 Notice: Time 5953 - 6001: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 5977 - 6001 Notice: Time 5977 - 6025: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6001 - 6025 Notice: Time 6001 - 6049: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6025 - 6049 Notice: Time 6025 - 6073: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6049 - 6073 Notice: Time 6049 - 6097: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6073 - 6097 Notice: Time 6073 - 6121: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6097 - 6121 Notice: Time 6097 - 6145: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6121 - 6145 Notice: Time 6121 - 6169: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6145 - 6169 Notice: Time 6145 - 6193: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6169 - 6193 Notice: Time 6169 - 6217: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6193 - 6217 Notice: Time 6193 - 6241: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6217 - 6241 Notice: Time 6217 - 6265: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6241 - 6265 Notice: Time 6241 - 6289: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6265 - 6289 Notice: Time 6265 - 6313: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6289 - 6313 Notice: Time 6289 - 6337: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6313 - 6337 Notice: Time 6313 - 6361: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6337 - 6361 Notice: Time 6337 - 6385: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6361 - 6385 Notice: Time 6361 - 6409: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6385 - 6409 Notice: Time 6385 - 6433: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6409 - 6433 Notice: Time 6409 - 6457: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6433 - 6457 Notice: Time 6433 - 6481: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6457 - 6481 Notice: Time 6457 - 6505: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6481 - 6505 Notice: Time 6481 - 6529: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6505 - 6529 Notice: Time 6505 - 6553: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6529 - 6553 Notice: Time 6529 - 6577: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6553 - 6577 Notice: Time 6553 - 6601: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6577 - 6601 Notice: Time 6577 - 6625: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6601 - 6625 Notice: Time 6601 - 6649: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6625 - 6649 Notice: Time 6625 - 6673: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6649 - 6673 Notice: Time 6649 - 6697: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6673 - 6697 Notice: Time 6673 - 6721: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6697 - 6721 Notice: Time 6697 - 6745: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6721 - 6745 Notice: Time 6721 - 6769: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6745 - 6769 Notice: Time 6745 - 6793: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6769 - 6793 Notice: Time 6769 - 6817: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6793 - 6817 Notice: Time 6793 - 6841: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6817 - 6841 Notice: Time 6817 - 6865: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6841 - 6865 Notice: Time 6841 - 6889: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6865 - 6889 Notice: Time 6865 - 6913: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6889 - 6913 Notice: Time 6889 - 6937: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6913 - 6937 Notice: Time 6913 - 6961: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6937 - 6961 Notice: Time 6937 - 6985: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6961 - 6985 Notice: Time 6961 - 7009: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 6985 - 7009 Notice: Time 6985 - 7033: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7009 - 7033 Notice: Time 7009 - 7057: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7033 - 7057 Notice: Time 7033 - 7081: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7057 - 7081 Notice: Time 7057 - 7105: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7081 - 7105 Notice: Time 7081 - 7129: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7105 - 7129 Notice: Time 7105 - 7153: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7129 - 7153 Notice: Time 7129 - 7177: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7153 - 7177 Notice: Time 7153 - 7201: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7177 - 7201 Notice: Time 7177 - 7225: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7201 - 7225 Notice: Time 7201 - 7249: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7225 - 7249 Notice: Time 7225 - 7273: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7249 - 7273 Notice: Time 7249 - 7297: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7273 - 7297 Notice: Time 7273 - 7321: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7297 - 7321 Notice: Time 7297 - 7345: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7321 - 7345 Notice: Time 7321 - 7369: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7345 - 7369 Notice: Time 7345 - 7393: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7369 - 7393 Notice: Time 7369 - 7417: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7393 - 7417 Notice: Time 7393 - 7441: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7417 - 7441 Notice: Time 7417 - 7465: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7441 - 7465 Notice: Time 7441 - 7489: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7465 - 7489 Notice: Time 7465 - 7513: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7489 - 7513 Notice: Time 7489 - 7537: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7513 - 7537 Notice: Time 7513 - 7561: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7537 - 7561 Notice: Time 7537 - 7585: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7561 - 7585 Notice: Time 7561 - 7609: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7585 - 7609 Notice: Time 7585 - 7633: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7609 - 7633 Notice: Time 7609 - 7657: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7633 - 7657 Notice: Time 7633 - 7681: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7657 - 7681 Notice: Time 7657 - 7705: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7681 - 7705 Notice: Time 7681 - 7729: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7705 - 7729 Notice: Time 7705 - 7753: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7729 - 7753 Notice: Time 7729 - 7777: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7753 - 7777 Notice: Time 7753 - 7801: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7777 - 7801 Notice: Time 7777 - 7825: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7801 - 7825 Notice: Time 7801 - 7849: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7825 - 7849 Notice: Time 7825 - 7873: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7849 - 7873 Notice: Time 7849 - 7897: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7873 - 7897 Notice: Time 7873 - 7921: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7897 - 7921 Notice: Time 7897 - 7945: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7921 - 7945 Notice: Time 7921 - 7969: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7945 - 7969 Notice: Time 7945 - 7993: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7969 - 7993 Notice: Time 7969 - 8017: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 7993 - 8017 Notice: Time 7993 - 8041: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8017 - 8041 Notice: Time 8017 - 8065: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8041 - 8065 Notice: Time 8041 - 8089: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8065 - 8089 Notice: Time 8065 - 8113: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8089 - 8113 Notice: Time 8089 - 8137: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8113 - 8137 Notice: Time 8113 - 8161: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8137 - 8161 Notice: Time 8137 - 8185: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8161 - 8185 Notice: Time 8161 - 8209: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8185 - 8209 Notice: Time 8185 - 8233: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8209 - 8233 Notice: Time 8209 - 8257: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8233 - 8257 Notice: Time 8233 - 8281: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8257 - 8281 Notice: Time 8257 - 8305: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8281 - 8305 Notice: Time 8281 - 8329: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8305 - 8329 Notice: Time 8305 - 8353: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8329 - 8353 Notice: Time 8329 - 8377: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8353 - 8377 Notice: Time 8353 - 8401: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8377 - 8401 Notice: Time 8377 - 8425: Suboptimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8401 - 8425 Notice: Time 8401 - 8449: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8425 - 8449 Notice: Time 8425 - 8473: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8449 - 8473 Notice: Time 8449 - 8497: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8473 - 8497 Notice: Time 8473 - 8521: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8497 - 8521 Notice: Time 8497 - 8545: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8521 - 8545 Notice: Time 8521 - 8569: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8545 - 8569 Notice: Time 8545 - 8593: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8569 - 8593 Notice: Time 8569 - 8617: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8593 - 8617 Notice: Time 8593 - 8641: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8617 - 8641 Notice: Time 8617 - 8665: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8641 - 8665 Notice: Time 8641 - 8689: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8665 - 8689 Notice: Time 8665 - 8713: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8689 - 8713 Notice: Time 8689 - 8737: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8713 - 8737 Notice: Time 8713 - 8761: Optimal solution identified. Notice: Optimizing thermal energy dispatch profile for time window 8737 - 8761 Notice: Time 8737 - 8761: Optimal solution identified. Notice: ====== Dispatch Optimization Summary ======\ Optimal solves: 331\ Suboptimal iteration limit: 0\ Suboptimal time limit: 34\ Suboptimal user gap: 0\ Suboptimal lpsolve gap: 0
Physical Trough,Single Owner,377431488,14.4214,14.5131,;
Physical Trough,Merchant Plant,377431488,13.253,NA,;
Physical Trough,Leveraged Partnership Flip,377431488,14.692,14.5131,;
Physical Trough,All Equity Partnership Flip,377431488,16.4315,14.5131,;
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,345244672,14.8585,14.9463,; 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
Empirical Trough,Merchant Plant,343802240,13.7205,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 $-3.26127e+08. A negative NPV indicates project costs are higher than revenues.
Empirical Trough,Leveraged Partnership Flip,345244672,15.1902,14.9463,; 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 $-1.92104e+07. A negative NPV indicates project costs are higher than revenues.
Empirical Trough,All Equity Partnership Flip,345244672,16.7465,14.9463,; 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 $-2.65159e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-4.72943e+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,615096320,10.2138,10.2891,;
MSPT,Merchant Plant,615096320,9.52175,NA,;
MSPT,Leveraged Partnership Flip,615096320,10.4083,10.2891,;
MSPT,All Equity Partnership Flip,615096320,11.6632,10.2891,;
MSPT,Sale Leaseback,615096320,11.8794,10.2891,;
MSPT,None,615096320,NA,NA,;
MSLF,Single Owner,305613664,18.3254,18.4121,; 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,305733952,14.6696,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 $-3.69519e+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 = 178.174 power cycle startup time iteration only reached a convergence= -0.500901 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 250.169 power cycle startup time iteration only reached a convergence= -4.55568 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 322.183 power cycle startup time iteration only reached a convergence= -25.1398 [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 = 0.00250011. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.333 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 125.577 [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 = 0.0042151. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.219 power cycle startup time iteration only reached a convergence= 16.9597 [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 = -0.00126761. 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 = 0.00199477. 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 = -0.00258539. 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 = -0.00787774. 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 = -0.00227437. 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 = -0.00727292. 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 = -0.0109219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1985 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00822353. 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 = -0.00305012. 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 = -0.00577582. 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 = -0.00619385. 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 = -0.00298974. 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 = -0.00947407. 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 = -0.0140416. 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 = -0.00184036. 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 = -0.0135848. 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 = -0.00466574. 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 = -0.00857331. 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 = -0.0139166. 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 = -0.00896015. 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 = -0.00423947. 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 = -0.00612262. 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 = -0.00907997. 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 = -0.00864268. 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 = -0.0158351. 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 = -0.0155192. 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 = -0.00791262. 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 = -0.00964751. 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 = -0.0107836. 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 = -0.00352882. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3012 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0049558. 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 = -0.0145391. 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 = -0.00289582. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 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 = -0.00232805. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00140885. 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 = -0.00214804. 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 = -0.0114988. 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 = -0.0094036. 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 = -0.0110133. 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 = -0.00812764. 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 mass flow rate only reached a convergence = 0.00161406. 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 = -0.00190952. 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 = -0.00421786. 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 = -0.00157216. 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 = -0.00830557. 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 = -0.00529964. 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 = -0.00136149. 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 = -0.00858434. 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 = -0.00899263. 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 = -0.0118824. 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 = -0.00954874. 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 = -0.0109864. 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 = -0.0116217. 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 = -0.0102944. 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 = -0.00441814. 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 = -0.0121351. 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 = -0.0111558. 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 = -0.010878. 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 = -0.0134809. 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 = -0.00290892. 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 = -0.00853364. 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 = -0.00250692. 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 = -0.00986828. 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 = -0.00302025. 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 = -0.00367952. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4262 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00976318. 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 = -0.00980879. 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 = -0.00205827. 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 = -0.00635816. 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 = -0.00249202. 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 = -0.00518128. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4934 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00479123. 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 = -0.00721794. 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 = -0.00303112. 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 = -0.00349755. 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 = -0.0069971. 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 = -0.00828343. 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 = -0.00227277. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5366 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00676489. 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 = -0.00574865. 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 = -0.00453428. 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 = -0.00349033. 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 = -0.00404116. 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 = -0.00546475. 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 = -0.0057752. 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 = -0.00520178. 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 = -0.00419342. 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 = -0.00186893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 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 = -0.00256283. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00245581. 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 = -0.00918986. 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 = -0.0103028. 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 = -0.0111823. 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 = -0.00496465. 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 = -0.0105546. 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 = -0.00809711. 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 = -0.00421075. 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 = -0.00513934. 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 = 0.00423983. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 power cycle startup time iteration only reached a convergence= -5.77338 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.754 [MWt], greater than the target 130.404 [MWt]. Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 11.0995 [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= 28.271 [s]. Check that results at this timestep are not unreasonably biasing total simulation results
MSLF,Leveraged Partnership Flip,305733952,18.6134,18.4121,; 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 $-1.98009e+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 = 178.174 power cycle startup time iteration only reached a convergence= -0.500901 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 250.169 power cycle startup time iteration only reached a convergence= -4.55568 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 322.183 power cycle startup time iteration only reached a convergence= -25.1398 [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 = 0.00250011. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.333 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 125.577 [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 = 0.0042151. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.219 power cycle startup time iteration only reached a convergence= 16.9597 [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 = -0.00126761. 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 = 0.00199477. 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 = -0.00258539. 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 = -0.00787774. 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 = -0.00227437. 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 = -0.00727292. 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 = -0.0109219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1985 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00822353. 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 = -0.00305012. 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 = -0.00577582. 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 = -0.00619385. 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 = -0.00298974. 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 = -0.00947407. 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 = -0.0140416. 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 = -0.00184036. 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 = -0.0135848. 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 = -0.00466574. 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 = -0.00857331. 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 = -0.0139166. 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 = -0.00896015. 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 = -0.00423947. 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 = -0.00612262. 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 = -0.00907997. 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 = -0.00864268. 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 = -0.0158351. 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 = -0.0155192. 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 = -0.00791262. 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 = -0.00964751. 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 = -0.0107836. 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 = -0.00352882. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3012 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0049558. 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 = -0.0145391. 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 = -0.00289582. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 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 = -0.00232805. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00140885. 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 = -0.00214804. 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 = -0.0114988. 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 = -0.0094036. 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 = -0.0110133. 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 = -0.00812764. 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 mass flow rate only reached a convergence = 0.00161406. 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 = -0.00190952. 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 = -0.00421786. 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 = -0.00157216. 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 = -0.00830557. 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 = -0.00529964. 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 = -0.00136149. 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 = -0.00858434. 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 = -0.00899263. 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 = -0.0118824. 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 = -0.00954874. 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 = -0.0109864. 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 = -0.0116217. 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 = -0.0102944. 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 = -0.00441814. 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 = -0.0121351. 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 = -0.0111558. 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 = -0.010878. 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 = -0.0134809. 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 = -0.00290892. 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 = -0.00853364. 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 = -0.00250692. 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 = -0.00986828. 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 = -0.00302025. 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 = -0.00367952. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4262 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00976318. 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 = -0.00980879. 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 = -0.00205827. 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 = -0.00635816. 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 = -0.00249202. 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 = -0.00518128. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4934 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00479123. 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 = -0.00721794. 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 = -0.00303112. 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 = -0.00349755. 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 = -0.0069971. 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 = -0.00828343. 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 = -0.00227277. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5366 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00676489. 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 = -0.00574865. 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 = -0.00453428. 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 = -0.00349033. 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 = -0.00404116. 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 = -0.00546475. 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 = -0.0057752. 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 = -0.00520178. 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 = -0.00419342. 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 = -0.00186893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 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 = -0.00256283. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00245581. 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 = -0.00918986. 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 = -0.0103028. 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 = -0.0111823. 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 = -0.00496465. 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 = -0.0105546. 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 = -0.00809711. 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 = -0.00421075. 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 = -0.00513934. 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 = 0.00423983. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 power cycle startup time iteration only reached a convergence= -5.77338 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.754 [MWt], greater than the target 130.404 [MWt]. Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 11.0995 [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= 28.271 [s]. Check that results at this timestep are not unreasonably biasing total simulation results
MSLF,All Equity Partnership Flip,305733952,20.5005,18.4121,; Warning: NPV is $-9.00684e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.20757e+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 = 178.174 power cycle startup time iteration only reached a convergence= -0.500901 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 250.169 power cycle startup time iteration only reached a convergence= -4.55568 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 322.183 power cycle startup time iteration only reached a convergence= -25.1398 [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 = 0.00250011. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.333 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 125.577 [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 = 0.0042151. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.219 power cycle startup time iteration only reached a convergence= 16.9597 [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 = -0.00126761. 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 = 0.00199477. 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 = -0.00258539. 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 = -0.00787774. 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 = -0.00227437. 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 = -0.00727292. 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 = -0.0109219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1985 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00822353. 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 = -0.00305012. 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 = -0.00577582. 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 = -0.00619385. 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 = -0.00298974. 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 = -0.00947407. 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 = -0.0140416. 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 = -0.00184036. 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 = -0.0135848. 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 = -0.00466574. 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 = -0.00857331. 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 = -0.0139166. 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 = -0.00896015. 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 = -0.00423947. 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 = -0.00612262. 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 = -0.00907997. 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 = -0.00864268. 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 = -0.0158351. 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 = -0.0155192. 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 = -0.00791262. 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 = -0.00964751. 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 = -0.0107836. 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 = -0.00352882. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3012 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0049558. 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 = -0.0145391. 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 = -0.00289582. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 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 = -0.00232805. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00140885. 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 = -0.00214804. 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 = -0.0114988. 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 = -0.0094036. 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 = -0.0110133. 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 = -0.00812764. 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 mass flow rate only reached a convergence = 0.00161406. 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 = -0.00190952. 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 = -0.00421786. 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 = -0.00157216. 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 = -0.00830557. 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 = -0.00529964. 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 = -0.00136149. 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 = -0.00858434. 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 = -0.00899263. 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 = -0.0118824. 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 = -0.00954874. 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 = -0.0109864. 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 = -0.0116217. 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 = -0.0102944. 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 = -0.00441814. 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 = -0.0121351. 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 = -0.0111558. 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 = -0.010878. 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 = -0.0134809. 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 = -0.00290892. 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 = -0.00853364. 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 = -0.00250692. 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 = -0.00986828. 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 = -0.00302025. 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 = -0.00367952. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4262 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00976318. 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 = -0.00980879. 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 = -0.00205827. 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 = -0.00635816. 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 = -0.00249202. 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 = -0.00518128. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4934 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00479123. 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 = -0.00721794. 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 = -0.00303112. 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 = -0.00349755. 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 = -0.0069971. 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 = -0.00828343. 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 = -0.00227277. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5366 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00676489. 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 = -0.00574865. 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 = -0.00453428. 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 = -0.00349033. 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 = -0.00404116. 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 = -0.00546475. 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 = -0.0057752. 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 = -0.00520178. 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 = -0.00419342. 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 = -0.00186893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 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 = -0.00256283. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00245581. 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 = -0.00918986. 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 = -0.0103028. 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 = -0.0111823. 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 = -0.00496465. 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 = -0.0105546. 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 = -0.00809711. 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 = -0.00421075. 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 = -0.00513934. 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 = 0.00423983. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 power cycle startup time iteration only reached a convergence= -5.77338 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.754 [MWt], greater than the target 130.404 [MWt]. Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 11.0995 [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= 28.271 [s]. Check that results at this timestep are not unreasonably biasing total simulation results
MSLF,Sale Leaseback,305733952,20.7881,18.4121,; Warning: NPV is $-8.64209e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-2.16957e+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 = 178.174 power cycle startup time iteration only reached a convergence= -0.500901 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 250.169 power cycle startup time iteration only reached a convergence= -4.55568 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 322.183 power cycle startup time iteration only reached a convergence= -25.1398 [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 = 0.00250011. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 639.333 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 125.577 [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 = 0.0042151. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 706.219 power cycle startup time iteration only reached a convergence= 16.9597 [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 = -0.00126761. 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 = 0.00199477. 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 = -0.00258539. 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 = -0.00787774. 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 = -0.00227437. 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 = -0.00727292. 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 = -0.0109219. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 1985 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.00822353. 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 = -0.00305012. 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 = -0.00577582. 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 = -0.00619385. 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 = -0.00298974. 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 = -0.00947407. 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 = -0.0140416. 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 = -0.00184036. 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 = -0.0135848. 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 = -0.00466574. 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 = -0.00857331. 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 = -0.0139166. 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 = -0.00896015. 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 = -0.00423947. 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 = -0.00612262. 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 = -0.00907997. 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 = -0.00864268. 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 = -0.0158351. 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 = -0.0155192. 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 = -0.00791262. 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 = -0.00964751. 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 = -0.0107836. 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 = -0.00352882. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3012 power cycle mass flow for startup iteration to find a defocus resulting in the maximum power cycle mass flow rate only reached a convergence = 0.0049558. 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 = -0.0145391. 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 = -0.00289582. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 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 = -0.00232805. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3088 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00140885. 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 = -0.00214804. 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 = -0.0114988. 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 = -0.0094036. 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 = -0.0110133. 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 = -0.00812764. 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 mass flow rate only reached a convergence = 0.00161406. 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 = -0.00190952. 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 = -0.00421786. 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 = -0.00157216. 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 = -0.00830557. 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 = -0.00529964. 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 = -0.00136149. 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 = -0.00858434. 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 = -0.00899263. 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 = -0.0118824. 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 = -0.00954874. 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 = -0.0109864. 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 = -0.0116217. 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 = -0.0102944. 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 = -0.00441814. 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 = -0.0121351. 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 = -0.0111558. 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 = -0.010878. 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 = -0.0134809. 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 = -0.00290892. 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 = -0.00853364. 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 = -0.00250692. 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 = -0.00986828. 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 = -0.00302025. 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 = -0.00367952. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4262 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00976318. 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 = -0.00980879. 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 = -0.00205827. 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 = -0.00635816. 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 = -0.00249202. 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 = -0.00518128. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 4934 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00479123. 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 = -0.00721794. 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 = -0.00303112. 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 = -0.00349755. 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 = -0.0069971. 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 = -0.00828343. 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 = -0.00227277. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5366 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00676489. 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 = -0.00574865. 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 = -0.00453428. 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 = -0.00349033. 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 = -0.00404116. 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 = -0.00546475. 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 = -0.0057752. 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 = -0.00520178. 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 = -0.00419342. 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 = -0.00186893. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 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 = -0.00256283. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 5848 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00245581. 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 = -0.00918986. 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 = -0.0103028. 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 = -0.0111823. 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 = -0.00496465. 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 = -0.0105546. 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 = -0.00809711. 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 = -0.00421075. 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 = -0.00513934. 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 = 0.00423983. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 power cycle startup time iteration only reached a convergence= -5.77338 [s]. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 8578.17 CR_ON__PC_SU__TES_OFF__AUX_OFF method converged to a power cycle thermal input, 136.754 [MWt], greater than the target 130.404 [MWt]. Notice: At time = 8626.18 power cycle startup time iteration only reached a convergence= 11.0995 [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= 28.271 [s]. Check that results at this timestep are not unreasonably biasing total simulation results
DSLF,Commercial,234568960,8.6057,NA,;
DSLF,Single Owner,234568960,15.9363,16.0294,;
DSLF,Merchant Plant,234568960,14.323,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 $-2.87485e+08. A negative NPV indicates project costs are higher than revenues.
DSLF,Leveraged Partnership Flip,234568960,16.2859,16.0294,; 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 $-1.36489e+07. A negative NPV indicates project costs are higher than revenues.
DSLF,All Equity Partnership Flip,234568960,17.9156,16.0294,; Warning: NPV is $-1.89262e+06. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-3.35376e+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,592360448,11.2036,11.2639,; 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,592360448,10.4232,NA,; Warning: NPV is $-3.82726e+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,592360448,11.4196,11.2639,; 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 $-2.34472e+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,592360448,12.8098,11.2639,; 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 $-1.02174e+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,1550245888,NA,NA,;
MSPT IPH,LCOH Calculator,1550245888,NA,NA,;
Physical Trough IPH,None,24057538,NA,NA,;
Physical Trough IPH,LCOH Calculator,24050810,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,928490880,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 = -0.00312474. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2270 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 = -0.00209584. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2270 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00199047. 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 = 0.00421163. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 2917 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 = 0.00226894. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3373 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 = -0.00164802. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 3373 CR_DF__PC_MAX__TES_FULL__AUX_OFF iteration to find a defocus resulting in the maximum power cycle heat input only reached a convergence = -0.00156869. 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 = -0.00289145. 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 heat input only reached a convergence = -0.00280222. 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 = 0.00159903. 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 = -0.00281834. 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 heat input only reached a convergence = -0.00246285. Check that results at this timestep are not unreasonably biasing total simulation results Notice: At time = 6472 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 = -0.00209277. Check that results at this timestep are not unreasonably biasing total simulation results
MEwave,Single Owner,65589748,55.7011,60.3986,;
MEwave,LCOE Calculator,59434320,NA,NA,;
MEwave,None,594343,NA,NA,;
MEwave Battery,Single Owner,64959432,57.5747,60.3968,;
MEtidal,LCOE Calculator,2.16152e+06,NA,NA,;
MEtidal,None,2.16152e+06,NA,NA,;
Wind Power,Residential,48358.4,18.6056,NA,;
Wind Power,Commercial,327922,7.10791,NA,;
Wind Power,Single Owner,818888256,2.30796,4.33226,;
Wind Power,Merchant Plant,818888256,2.40748,NA,;
Wind Power,Leveraged Partnership Flip,818888256,2.40109,4.33226,; 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,818888256,3.41969,4.33226,;
Wind Power,Sale Leaseback,818888256,3.79484,4.33226,; 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,1.93518e+06,6.9983,NA,;
Fuel Cell,Single Owner,213465344,5.91943,6.53632,;
Geothermal Power,Single Owner,261293360,7.22559,8.60947,;
Geothermal Power,Merchant Plant,261373328,7.64495,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 $-8.72971e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,Leveraged Partnership Flip,261293360,7.32938,8.60947,; 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.
Geothermal Power,All Equity Partnership Flip,261373328,8.93208,8.61272,; 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 $-2.46848e+07. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,Sale Leaseback,261293360,8.99708,8.60947,; Warning: NPV is $-9.62331e+06. A negative NPV indicates project costs are higher than revenues.
Geothermal Power,LCOE Calculator,261225072,NA,NA,;
Geothermal Power,None,261225072,NA,NA,;
Solar Water Heating,Residential,2251.89,28.5317,NA,;
Solar Water Heating,Commercial,2251.96,18.1192,NA,;
Solar Water Heating,LCOE Calculator,2281.61,NA,NA,;
Solar Water Heating,None,2281.61,NA,NA,;
Biopower,Single Owner,353982848,12.6663,12.9968,;
Biopower,Merchant Plant,353982848,13.5156,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 $-3.34478e+08. A negative NPV indicates project costs are higher than revenues.
Biopower,Leveraged Partnership Flip,353982848,12.1718,12.9968,; 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.
Biopower,All Equity Partnership Flip,353982848,13.5282,12.9968,; Warning: NPV is $-1.76136e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,Sale Leaseback,353982848,13.4569,12.9968,; 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 $-1.85131e+07. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-5.97626e+07. A negative NPV indicates project costs are higher than revenues.
Biopower,LCOE Calculator,353982848,NA,NA,;
Biopower,None,353982848,NA,NA,;
Generic System,Residential,1513728,24.972,NA,;
Generic System,Commercial,35591988,23.4375,NA,;
Generic System,Third Party,30274.6,NA,NA,;
Generic System,Host Developer,73469696,13.5804,13.3335,; 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 $-1.77349e+06. A negative NPV indicates project costs are higher than revenues.
Generic System,Single Owner,756864000,25.2973,25.9936,;
Generic System,Merchant Plant,756864000,27.0049,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 $-1.71214e+09. A negative NPV indicates project costs are higher than revenues.
Generic System,Leveraged Partnership Flip,840960000,24.2686,25.9936,; 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.
Generic System,All Equity Partnership Flip,756864000,29.7345,25.9936,; 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 $-2.92568e+08. A negative NPV indicates project costs are higher than revenues.
Generic System,Sale Leaseback,756864000,29.4653,25.9936,; Warning: NPV is $-2.65502e+08. A negative NPV indicates project costs are higher than revenues. Warning: NPV is $-3.27398e+07. A negative NPV indicates project costs are higher than revenues.
Generic System,LCOE Calculator,756864000,NA,NA,;
Generic System,None,756864000,NA,NA,;
final_configuration_eof,none,NA,NA,NA,