A single 1.8 mega watt turbine, in one year, can produce 5.0 million kilowatts of electricity and supply enough power to generate for five hundred homes. 20 1.8 mega watt turbines, in one year can produce 2 billion kilowatts of electricity and supply enough power to generate 10,000 homes. 20 1.8 mega watt turbines, over twenty years, can produce 100 billion kilowatts of CLEAN electricity and supply enough power to generate 10,000 homes.
The height of a wind turbine has no impact on the turbine's output wattage. The factors that effect the watts produced are: * The efficiency of turbine design (this is at most 59%) * the density of the air * the radius of the turbine (that is, the length of each fin) * the velocity of the wind passing through the turbine An 80 ft tall turbine would presumably have a fin length (that is, turbine radius) of at most 30 ft. Thus, at sea level on a 59 degree (F) day, in an 8 m/s (18mi/h) wind, with the most efficient turbine design possible, you would generate approximately 15.4 Kilowatts. See: http://en.wikipedia.org/wiki/Wind_turbine#Potential_turbine_power
With a new kind of wind turbine called a vertical axis wind turbine (VAWT) that can produce electricity in winds as low as 5 mph.
The inventor of the wind turbine was Charles F. Brush in 1888.
Green energy is the idea. But to be honest, not much power is produced from each wind turbine, so they don't really help very much, that's why you need SO many of them. For instance a typical power station would be 2000 MW, a typical wind turbine is 2 MW. A typical power station could operate at 100% output for 90% of the time. A typical wind turbine operates at 50% output but is only operating for 50% of the time (when the wind is acceptable). So on average the power station can produce 1800MW whereas the wind turbine is about 0.5 MW.
A wind turbine is a form of electric generation. On top of a tall pole there is a turbine (fan thing) and the wind spins it around. The turbine is connected to a motor which generates an electromagnetic flow from the motion.
There are wind turbine from 300watt to 50kw , normally ,one 2kw wind turbine is enough for a home Allan Skype :minjia002
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.
one wind turbine can produce enough energy to power 10000 houses with the right amount of wind.
The wind turns a wind turbine. The turbine turns a generator.
The height of a wind turbine has no impact on the turbine's output wattage. The factors that effect the watts produced are: * The efficiency of turbine design (this is at most 59%) * the density of the air * the radius of the turbine (that is, the length of each fin) * the velocity of the wind passing through the turbine An 80 ft tall turbine would presumably have a fin length (that is, turbine radius) of at most 30 ft. Thus, at sea level on a 59 degree (F) day, in an 8 m/s (18mi/h) wind, with the most efficient turbine design possible, you would generate approximately 15.4 Kilowatts. See: http://en.wikipedia.org/wiki/Wind_turbine#Potential_turbine_power
7000 watts
Wind Turbine.
50 that is enought to use 100 kettles!!:)
depends on if it works
One 1 kW wind turbine.
What are you smoking?
A wind turbine is a machine that uses wind to produce power. The kinetic energy of the wind rotates the turbine's blades, which then drive a generator to generate electricity.