live4soccer7
Solar Enthusiast
- Joined
- Jun 15, 2020
- Messages
- 670
muahahaha
Noice!It's just so satisfying:
I agree. When I get some free time I'll think of it. I've already started working on a heat reclamation project for some servers I'm going to be cooling with immersion.Noice!
Need better inverter names though, give 'em a bit of personality.
I agree. When I get some free time I'll think of it. I've already started working on a heat reclamation project for some servers I'm going to be cooling with immersion.
Meaux, Larioux, CurleeNeed better inverter names though, give 'em a bit of personality.
Nearly 6.5 kWh/kWₚGot a new local high for single day production yesterday. 286kw/h on a sunny march day with the ground covered with snow.
So I don’t have to scroll all the way through this thread, how big is your array again?Got a new local high for single day production yesterday. 286kw/h on a sunny march day with the ground covered with snow.
check my sig ?So I don’t have to scroll all the way through this thread, how big is your array again?
Oh sure, make me do math in public! 44.16kW?check my sig ?
Huh? Less than 10% loss with snow on them?I read an article somewhere that the loss from snow on panels is brought down into the single digits from bifacial panels.
I've definitely noticed that. With the current sun elevation the max continous I will see is roughly 14kw/inverter. On days where clouds are sorta in an out or passing by I'll get the inverters to max. I'm excited to see the data throughout the whole year.Nice.
Days like that you will get cloud edge effects which will see production max out as well. These effects tend to be a bit more ephemeral but it depends on the way the clouds are playing with the sunlight.
As an example I have seen 2.7 kW from a 2.2 kW PV array (and on a warm day). Obviously in this case the PV output is not limited by the inverter.