This is more of a dissertation than a question.
I had three perfect, consecutive sunny days, April 13th through April 15th.
I know temperature affects solar output, but what about humidity and barometric pressure? The production variations are not very big, less than 5%, but I expected them to gradually increase as the days get longer each day, but was looking for the magic number that temperature begins adversely affecting. Temperature wasn't a large increase, but humidity and barometric pressure were.
If nothing else, I figured it would spark some conversation
My stats:
April 13th - 125.2 kWh, temp 77.2 F, humidity 77%, barometer 29.87
April 14th - 122.2 kWh, temp 81.9 F, humidity 84%, barometer 30.12
April 15th - 119.7 kWh, temp 81.8 F, humidity 86%, barometer 30.28
I had three perfect, consecutive sunny days, April 13th through April 15th.
I know temperature affects solar output, but what about humidity and barometric pressure? The production variations are not very big, less than 5%, but I expected them to gradually increase as the days get longer each day, but was looking for the magic number that temperature begins adversely affecting. Temperature wasn't a large increase, but humidity and barometric pressure were.
If nothing else, I figured it would spark some conversation
My stats:
April 13th - 125.2 kWh, temp 77.2 F, humidity 77%, barometer 29.87
April 14th - 122.2 kWh, temp 81.9 F, humidity 84%, barometer 30.12
April 15th - 119.7 kWh, temp 81.8 F, humidity 86%, barometer 30.28