Solar energy in Wuhan, China

Average irradiation 3.5 kWh/m²/day · ~1022 kWh per kWp per year

3.5
Avg GHI (kWh/m²/day)
1,022
kWh / kWp / year
5,000
kWh/yr from 5 kW system
30.58, 114.27
Coordinates

Monthly solar irradiation & temperature in Wuhan (NASA POWER)

MonthIrradiation (kWh/m²/day)Avg temp (°C)Est. production per kWp (kWh)
Jan2.024.249
Feb2.357.157
Mar3.3312.281
Apr4.0918.0100
May4.3922.8107
Jun4.4126.5107
Jul4.9829.1121
Aug4.8128.8117
Sep3.9825.097
Oct3.1219.176
Nov2.4812.560
Dec2.085.851

Solar potential of Wuhan explained

Wuhan receives an average of 3.5 kilowatt-hours of solar energy per square metre per day, measured over four decades of satellite observation. In practical terms, every kilowatt-peak of installed PV capacity yields about 1022 kWh of electricity per year here, assuming a well-oriented system with a typical 80% performance ratio. This is a solid mid-range solar resource: production is meaningful year-round, though winter output drops noticeably.

Frequently asked questions

Is solar worth it in Wuhan?

With 3.5 kWh/m²/day of average irradiation, a 1 kWp system in Wuhan produces roughly 1022 kWh per year. That is a good solar resource; with current panel prices most systems pay back well within their lifetime.

How much electricity would a 5 kW system produce in Wuhan?

Approximately 5,000 kWh per year — enough to cover a large share of a typical household's consumption.

What data is this based on?

Long-term satellite observations from NASA POWER (1981–present) and the PVGIS SARAH3 database, assuming a performance ratio of 80%.