I'm using the example PV file to simulate an array with 288 Sharp NE170U1 panels. I've taken the example file, input the module parameters into the EES which seemed to run okay, but I get an error after the EES runs (I multiplied the Temp Coefficient of Isc by the short circuit current to reflect units requested in the EES). The EES updates the Type parameters with the calculation results. I've updated the module area, # series (12), # parallel (4), for a total of 48 modules per inverter in both the Type and the example's Parameters equation. I've input the inverter performances curves into a txt file, following the format provided in the type reference. Upon running, the PV type (194) reports that it's expecting 24 parameters while 29 are specified, as if there's 24 Parameters in the pro-forma, yet there are 29. I'm currently using TRNSYS 16. Any pointers would be appreciated. Kent Beason Estes, McClure & Associates, Inc. 3608 West Way Tyler, TX 75703 ------------------------- office - 903 581 2291 cell - 830 609 8904 |
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0.000E+00 0.750E+03 0.100E+04 0.200E+04 0.300E+04 0.400E+04 0.500E+04 0.600E+04 0.700E+04 0.250E+03 0.310E+03 0.480E+03 0.797 !Efficiency at Power = 0.000E+00 and Voltage = 0.250E+03 0.780 !Efficiency at Power = 0.000E+00 and Voltage = 0.310E+03 0.748 !Efficiency at Power = 0.000E+00 and Voltage = 0.480E+03 0.860 !Efficiency at Power = 0.750E+03 and Voltage = 0.250E+03 0.925 !Efficiency at Power = 0.750E+03 and Voltage = 0.310E+03 0.938 !Efficiency at Power = 0.750E+03 and Voltage = 0.480E+03 0.917 !Efficiency at Power = 0.100E+04 and Voltage = 0.250E+03 0.940 !Efficiency at Power = 0.100E+04 and Voltage = 0.310E+03 0.947 !Efficiency at Power = 0.100E+04 and Voltage = 0.480E+03 0.948 !Efficiency at Power = 0.200E+04 and Voltage = 0.250E+03 0.960 !Efficiency at Power = 0.200E+04 and Voltage = 0.310E+03 0.967 !Efficiency at Power = 0.200E+04 and Voltage = 0.480E+03 0.955 !Efficiency at Power = 0.300E+04 and Voltage = 0.250E+03 0.964 !Efficiency at Power = 0.300E+04 and Voltage = 0.310E+03 0.970 !Efficiency at Power = 0.300E+04 and Voltage = 0.480E+03 0.954 !Efficiency at Power = 0.400E+04 and Voltage = 0.250E+03 0.963 !Efficiency at Power = 0.400E+04 and Voltage = 0.310E+03 0.968 !Efficiency at Power = 0.400E+04 and Voltage = 0.480E+03 0.950 !Efficiency at Power = 0.500E+04 and Voltage = 0.250E+03 0.962 !Efficiency at Power = 0.500E+04 and Voltage = 0.310E+03 0.963 !Efficiency at Power = 0.500E+04 and Voltage = 0.480E+03 0.945 !Efficiency at Power = 0.600E+04 and Voltage = 0.250E+03 0.960 !Efficiency at Power = 0.600E+04 and Voltage = 0.310E+03 0.962 !Efficiency at Power = 0.600E+04 and Voltage = 0.480E+03 0.943 !Efficiency at Power = 0.700E+04 and Voltage = 0.250E+03 0.957 !Efficiency at Power = 0.700E+04 and Voltage = 0.310E+03 0.958 !Efficiency at Power = 0.700E+04 and Voltage = 0.480E+03
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