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Hi, I wanted to run simulation with Victron MultiPlus-II GX Inverter/Charger 48V/3000 VA/35A-32 /230V on the following project. Both datasheet of the Victron system as well as .pvprj are attached here. I did not find the victron in inverter neither could I figure out the proper way of adding new inverter from the given datasheet. Datasheet-MultiPlus-II-GX-inverter-charger-EN-.pdf Banbridge.pvprj 2983-MultiPlus-II_GX-pdf-en.pdf

Mppt 1: string 1 -7 panels, string 2 - 7 panels Mppt 2: string 1 -7 panels, string 2 - 7 panels The shade from chimney will affect string s1. Is there a way to know if the loss on string S1 will also affect string S2 and does it loose same amount as they are in same mppt, although S2 will not have shade but is in same mppt as in shaded string S1? Is there a way to see in terms of total output loss in each string in PVSol? test.pvprj

Try adjusting these two values and you will have it.

Can PVSol simulate 30 years production including module degradation? I only find it for 1 year.

is there a way to change the date (marked red) to current date?

default value we put is 20% so now for this place do you suggest to add extra 3-8% ?

Hi, Does PVSOL incorporate extra irradiance that the building gets when its closer to the sea? If not is there a way to add this in PVSOL? Location : Vallavikvegen, 1122 Vallavik

Below is a screenshot of production when I used PVGIS weather data. for Norway, normally april is lower than may june july but when i used PVGIS weather for pvsol it shows like this, can anyone explain???

Hi Frederik, is there updated date on the calculation of CO2 emissions saved as in the value .......g/kWh

How much will I gain in production from the rear side? Panel: Microquanta 650W bifacial panels number of panels: 428 facing straight south White surface on the roof Installation method : Suno Solcellesystemer for bolig og næring - Solceller Global radiation - horizontal 787,61 kWh/m² Deviation from standard spectrum -7,88 kWh/m² -1,00 % Ground Reflection (Albedo) 70,51 kWh/m² 9,04 % Orientation and inclination of the module surface 111,34 kWh/m² 13,10 % Module-independent shading -4,11 kWh/m² -0,43 % Reflection on the Module Interface -46,50 kWh/m² -4,86 % Irradiance on the rear side of the module 77,57 kWh/m² 8,52 % Global Radiation at the Module 988,53 kWh/m² 988,53 kWh/m² x 770,375 m² = 761 541,59 kWh Global PV Radiation 761 541,59 kWh Bifaciality (80 % of back irradiance) -11 949,10 kWh -1,57 % Soiling 0,00 kWh 0,00 % STC Conversion (Rated Efficiency of Module 20,96 %) -592 480,80 kWh -79,04 % Rated PV Energy 157 111,69 kWh Module-specific Partial Shading -6 186,98 kWh -3,94 % Low-light performance -3 917,31 kWh -2,60 % Deviation from the nominal module temperature -163,21 kWh -0,11 % Diodes -16,82 kWh -0,01 % Mismatch (Manufacturer Information) 0,00 kWh 0,00 % Mismatch (Configuration/Shading) -144,26 kWh -0,10 % PV Energy (DC) without inverter down-regulation 146 683,11 kWh Failing to reach the DC start output 0,00 kWh 0,00 % Down-regulation on account of the MPP Voltage Range -13,76 kWh -0,01 % Down-regulation on account of the max. DC Current 0,00 kWh 0,00 % Down-regulation on account of the max. DC Power 0,00 kWh 0,00 % Down-regulation on account of the max. AC Power/cos phi -21,07 kWh -0,01 % MPP Matching -794,35 kWh -0,54 % PV energy (DC) 145 853,93 kWh Energy at the Inverter Input 145 853,93 kWh Input voltage deviates from rated voltage -27,95 kWh -0,02 % DC/AC Conversion -5 782,85 kWh -3,97 % Standby Consumption (Inverter) -81,73 kWh -0,06 % Total Cable Losses -4 201,29 kWh -3,00 % PV energy (AC) minus standby use 135 760,10 kWh PV Generator Energy (AC grid) 135 841,84 kWh Microquanta - MQ-210M-12BB - v2 (1).pdf

can you also add Microquanta - MQ-210M-12BB - v2 to the database 650W panels Microquanta - MQ-210M-12BB - v2.pdf