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This varies based on the configuration of a particular turbine, as they range is size and scale, and the wind density at a particular location. Typical turbines vary in output from a few watts to megawatts.
Depends on the output of the reactor, but new PWR's are rated at about 1500 MW (megawatts), so in one day would produce 1500 x 24 Megawatthours = 36,000 MWh
Wind is one of our free resources and in some areas blows up to 80% of the time. The wind is used to move large propeller blades attached to a gearbox. The gearbox is connected to a turbine to produce the electrical current. The gearbox also prevents the propeller blades from going into a runaway mode.
A wind turbine is not designed to generate wind, it uses wind and generates electricity.
Basically, the wind moves the fins that move the turbine. The turbine then creates electrical energy. (See how does a turbine work)
The worlds largest wind turbine creates seven-plus megawatts per year.
The worlds largest wind turbine creates seven-plus megawatts per year.
Most power plants produce several Megawatts of power. A Megawatt is one million watts.
one wind turbine can produce enough energy to power 10000 houses with the right amount of wind.
There are wind turbine from 300watt to 50kw , normally ,one 2kw wind turbine is enough for a home Allan Skype :minjia002
One 1 kW wind turbine.
This varies based on the configuration of a particular turbine, as they range is size and scale, and the wind density at a particular location. Typical turbines vary in output from a few watts to megawatts.
There are one million (1,000,000) watts in a megawatt.
To calculate tph to megawatts you need to know how many tph are in one megawatts. The equation is 1 mw is equal to 4 tph.
Depends on the output of the reactor, but new PWR's are rated at about 1500 MW (megawatts), so in one day would produce 1500 x 24 Megawatthours = 36,000 MWh
Well, let's do the math. Electrical usage is measured in kilowatt hours (kWh) so we must figure out the kWh production of one turbine. One 1.5MW wind turbine has a rated generation capacity of 1.5 megawatts maximum output. In reality, because of wind inconsistency and down time, actual output averages around 25%. So if we use a 25% factor rate; 1.5MW X .23 = .375MW or 375kW actual output. There are 8760 hours in a year (365 X 24), so the equation to figure out how many kWh one turbine produces in a year would be 375kW X 8760 = 3,285,000kWh. The average U.S. household in 2011 used approx. 12,000Wh (U.S. DOE). So, 3,285,000 divided by 12,000 = 273 homes. However, one turbine couldn't consistently power even one home because of the intermittent generation. So the correct answer is one turbine and one coal plant could power 274 homes.
Depends on the generator size tied to the windmill fans. A one 1.8 MW wind turbine in a particular site would produce over 4,7 million units of electricity each year, which is enough to support the annual needs of over 1,000 households, or to run a computer for over 1,620 years. And that is something reliable.