Load and solar resource comparison
The design process for an off-grid PV system should use conservative, worst-case values to ensure that the system is capable of meeting the energy needs of users throughout the year. There are many locations that have a significant seasonal variance in solar resource due to poor weather or latitude. Many off-grid PV systems will see a significant variance in how loads are used throughout the year, especially in locations that are only seasonally occupied. These two different factors - load usage vs. solar resource - make it important to determine what month to use in the system design as the worst-case scenario. An analysis of loads and usage could be performed on a monthly basis, but the most drastic shift in usage likely occurs between the major seasons in a given region meaning two to four times per year. Determining the worst-case month can be done using a simple table and a quick calculation. The values and calculation can be performed in Wh or kWh - the ratio is what is important.
Example of average monthly insolation for Puerto Maldonado, Madre de Dios, Peru in the Amazon rainforest with a tilt of 12 degrees of PV module tilt. Despite being relatively near the equator there is significant season variation. [1]
Month | Average daily insolation | Total average monthly Wh requirement | Ratio |
---|---|---|---|
January | 6.06 kWh/m² | 2.00kWh | .330 |
February | 6.32 kWh/m² | 2.00kWh | .316 |
March | 6.49 kWh/m² | 2.00kWh | .308 |
April | 6.42 kWh/m² | 2.00kWh | .311 |
May | 5.00 kWh/m² | 3.00kWh | .600 |
June | 3.75 kWh/m² | 3.00kWh | .800 |
July | 3.39 kWh/m² | 3.00kWh | .885 |
August | 3.69 kWh/m² | 3.00kWh | .813 |
September | 4.21 kWh/m² | 3.00kWh | .713 |
October | 5.17 kWh/m² | 3.00kWh | .580 |
November | 5.27 kWh/m² | 2.00kWh | .380 |
December | 5.60 kWh/m² | 2.00kWh | .357 |
- ↑ PVWatts Calculator https://pvwatts.nrel.gov/pvwatts.php