The process of converting wind power installed capacity into power generation capacity is as follows: \x0d\\x0d\Available power generation = installed wind power capacity × working hours of wind turbine\x0d\\x0d\Example: \x0d\\x0d\ A wind power station with an installed capacity of 200MW has a total working hours of 2,000 hours a year, so its power generation capacity is: 200MW*2000=400,000MW. That is to say, the wind power station can generate 400 million kWh of electricity per year.
How much electricity does a 5 MW wind turbine generate per hour?
The annual power generation of 5 MW is about 7 million kilowatt hours. The installed capacity is 5 megawatts, or 5,000 kilowatts, and the power generation per hour is 5,000 kilowatt hours, or 5,000 kilowatt hours. Taking into account the influence of geographical location, sunlight intensity and overall weather, the annual utilization time of photovoltaics is about 1,400 hours, so when multiplied, it is 7 million kilowatt hours.
The generator can generate approximately 5,000 kilowatt-hours of electricity per hour.
A 5-megawatt wind turbine can generate about 5,000 kilowatt-hours of electricity per hour. This is a theoretical power generation amount. The actual power generation amount is slightly lower than this value.
The number of rotations of a 5-megawatt wind turbine in one hour is about 500, which can generate about 5,000 kilowatt-hours of electricity, and the speed is between 12-20 revolutions per minute. At this speed, a 5-megawatt wind turbine can generate about 5 megawatt-hours of electricity in one hour, which is about 50,000 kilowatt-hours of electricity.