The amount of energy produced by windmills on a windy day varies based on the size and efficiency of the windmill, wind speed, and other factors. On average, a modern wind turbine can generate enough electricity to power hundreds of homes on a windy day.
The amount of energy generated by a wind turbine can vary depending on factors such as wind speed, turbine efficiency, and size. On average, a typical wind turbine with a capacity of 2-3 MW can generate around 5,000 to 8,000 kWh of electricity per day under optimal wind conditions.
A 500 watt wind turbine can produce 500 watt-hours of electricity per hour. In a day, that would amount to 12,000 watt-hours or 12 kilowatt-hours (kWh) of electricity. The actual production may vary based on factors like wind speed and turbine efficiency.
A modern windmill, also known as a wind turbine, works by capturing the kinetic energy from the wind and converting it into electrical energy. The wind turns the blades of the turbine, which are connected to a generator that produces electricity. This electricity can then be stored or used to power homes or businesses.
Hydropower and wind power are two energy sources that use mechanical energy to produce electricity. In hydropower, flowing water turns turbines to generate electricity, while in wind power, wind turns the blades of a turbine to generate electricity.
The amount of energy produced by windmills on a windy day varies based on the size and efficiency of the windmill, wind speed, and other factors. On average, a modern wind turbine can generate enough electricity to power hundreds of homes on a windy day.
A wind turbine with a diameter of about 150m will generate about 10MW of power.
It costs nothing but routine maintenance.
The amount of energy generated by a wind turbine can vary depending on factors such as wind speed, turbine efficiency, and size. On average, a typical wind turbine with a capacity of 2-3 MW can generate around 5,000 to 8,000 kWh of electricity per day under optimal wind conditions.
3 Kilowatts is a measure of electrical power and means the wind turbine produces 3,000 joules per second. So the question is fairly meaningless, assuming the wind is at the right speed it will be producing 3kW every second, every hour and every day!
If the wind is 0.015 W/km.t then it will preduce 85 %. That means you can have your lights on a whole day, without the electricity will crash. A 1 MW wind turbine running for 1 day produces 24 MWh of energy, in other words 24,000 kh or 24,000 units. That energy might have been generated in a coal-fired power plant which exhausted 24 tons of CO2 in the atmosphere. With the wind turbine running the coal-powered station produces less energy and less CO2, so that wind turbine in those conditions saves 24 tons of CO2 going into the atmosphere each day.
A 500 watt wind turbine can produce 500 watt-hours of electricity per hour. In a day, that would amount to 12,000 watt-hours or 12 kilowatt-hours (kWh) of electricity. The actual production may vary based on factors like wind speed and turbine efficiency.
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
Every turbine gives 300-400 homes power.
nope....only when the wind is blowing...
Wind turbines are a form of renewable energy that are powered by the wind. The amount of time it takes for a turbine to start up depends on the wind speed on the day, on a very windy day they can be up to full speed within 2 minutes.
First, the turbine itself does not store the energy. One needs a battery or capacitor for that. The amount of energy a turbine produces is determined by the size of the turbine and the speed of the blades, and the average RPMs in a given day. Short answer: it depends. It is best to couple the turbine as a backup for a solar array for times when the sun is not sufficient to power the cells, on the theory that when the sun is not shining during the day, the wind might be blowing because of a storm. [The British put low power turbines next to railroad tracks to power the crossing signals. The wind of the passing trains powers the them.]