Approximately one acre.
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.
by calculating the inlet steam enthalpy-outlet steam enthalpy we will know the total kcal consumed for output mw required kcal for 1 kwh=860 now campare this with your turbine kcal for 1kwh now you came to know how much is your turbine efficiency................................................................................
Depends on which kind of waste is used for the production.
Less than 5 volts
How much steam is required to produce 5 MW power in steam turbine?In fully condensing turbine we will need 20 TPH steam required to generate for 5MW
The amount of power produced by wind power varies depending on factors such as wind speed, turbine size, and location. On average, a typical onshore wind turbine can produce between 2 to 3 megawatts (MW) of power, while offshore wind turbines can produce even more.
Every turbine gives 300-400 homes power.
The power output of a steam turbine depends on various factors such as turbine size, steam pressure and temperature, and efficiency. Large steam turbines in power plants can generate hundreds of megawatts of electricity, while smaller turbines in industrial settings may produce tens to hundreds of kilowatts.
A large wind turbine can produce anywhere from 2 to 8 megawatts of electricity, depending on the specific model and wind conditions. This is enough to power hundreds to thousands of homes, depending on the energy consumption in the area.
The amount of energy produced by wind power depends on various factors such as wind speed, turbine efficiency, and turbine size. On average, a single wind turbine can generate enough electricity to power between 600 to 2000 homes per year. Wind power has the potential to produce a significant amount of clean energy and is a key component of the renewable energy mix.
Approximately one acre.
It produced enough electricity to power his holiday home and a surplus which he offered to the locals to power their street lights but they refused saying "Electricity was the work of the devil".
The amount of power consumed to rotate one turbine can vary depending on factors such as the size of the turbine, wind speed, and efficiency of the turbine system. On average, a small residential wind turbine may consume around 1-10 kW of power to rotate. Commercial-scale turbines can consume much more power, typically in the range of 1-2 MW.
This is a question of how much electrical energy you want to produce, against the cost of the equipment to produce it.
The power needed can be calculated using the formula: Power = Energy / Time. Plugging in the given values, the power required to produce 1700 Joules in 5 seconds is 340 Watts.
The amount of energy produced by wind depends on various factors such as wind speed, turbine size, and location. On average, a single wind turbine can generate enough electricity to power around 1200 households per year. Overall, wind energy contributes around 8% of the total electricity generation in the United States.