Solar Power System Efficiency: How to Calculate for Residential, Industrial & Commercial Use
Solar Power System Efficiency: How to Calculate for Residential, Industrial & Commercial Use
Pre-Module Losses | Tolerance of rated power | Consider that the module does not deliver the power as stated in the data sheet. Manufacturers provide a tolerance, often up to 5%. |
Shadows | Shadows may be caused by trees, chimneys etc. Depending on the stringing of the cells, even partial shading may have a significant effect. | |
Dirt | Losses due to dirt up to 4% in temperate regions with some frequent rain. Up to 25% in arid regions with only seasonal rain and dust. | |
Snow | Dependent on location and maintenance effort. | |
Reflection | Reflection losses increase with the angle of incidence. Also, this effect is less pronounced in locations with a large proportion of diffuse light, i.e. clouds. | |
Module Losses | Conversion | The nominal efficiency is given by the manufacturer for standard conditions. |
Thermal losses | With increasing temperatures, conversion losses increase. These losses depend on irradiance (i.e. location), mounting method (glass, thermal properties of materials), and wind speeds. A very rough estimate is ~8% | |
System Losses ~ 14% | Wiring | Any cables have some resistance and therefore more losses. |
MPP | Ability of the MPP tracker in inverters to consistently find the maximum power point. | |
Inverter | Inverter efficiency | |
Mis-sized inverter | If the inverter is undersized, power is clipped for high intensity light. If it is oversized, the inverter’s efficiency will be too low for low intensity light. | |
Transformer | Transformer losses, in case where electricity has to be connected to a high-voltage grid( 11 KV and above ). | |
Operation & Maintenance | Downtime | Downtime for maintenance is usually very low for photovoltaic systems. |
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