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.
it makes about 70,00,000 in a year [sonadow rocks]
The Power Generated by a Wind Turbine entirely depends on the capacity of the turbine which is installed.. there are turbines ranging from 1 watt to 10 MW that can be installed in a wind farm The installation of the turbine depends on the Wind Potential of the area.
To generate power using the mini wind turbine you will have to install a small wind turbine and connect it to the grid.
The wind turns a wind turbine. The turbine turns a generator.
Wind energy is generated by wind!! *gasp*
it makes about 70,00,000 in a year [sonadow rocks]
The Power Generated by a Wind Turbine entirely depends on the capacity of the turbine which is installed.. there are turbines ranging from 1 watt to 10 MW that can be installed in a wind farm The installation of the turbine depends on the Wind Potential of the area.
A wind turbine can use up to 40kw/h of energy at once. When for example the turbine is yawing into the wind (turning the head of the turbine into the wind for the blades to face the incoming wind). 4 high power motors and gears are used to do this. When at the same time the hydraulic system is turned on to control the blades to position themselves in the wind, and the motors for the cooling are enabled, the windturbine can require a lot of wind. However usually this is generated by the turbine itself. So this is not really relevant as the output is much higher then the usage.
To generate power using the mini wind turbine you will have to install a small wind turbine and connect it to the grid.
No, more wind means more power generated. They are called 'wind turbines' (rather than wind mills) since the transfer of energy is made through the blade acting as a wing (not as a sail); the difference in pressures on the blade induces a lateral force which is transferred to the axis and then to the rotor and the gearbox of the turbine. To answer your question, the power generated on a wind turbine is directly related to the third power of the wind speed; for instance an increase of 2% in the wind speed can translate in a theoretical increase of power output of 8%. Very much so. Most systems are rated at a wind speed of 28 mph. Most windy areas have a speed of less the 15 MPH average wind. A turbine operating in a 15 MPH wind will be providing roughly 10% of the rated power. At 28 MPH the system could deliver 100 % of rated power.
The wind turns a wind turbine. The turbine turns a generator.
A residential wind turbine is basically a mini wind turbine that is designed to provide power to the users. It basically provides power for the neighborhood to use.
The most important thing to know about is your local laws. They will determine how much space they require for a wind turbine. However, half an acre of land is sufficinet if you are allowed to have one. It depends on how much power you want to generate, and if your land has sufficient wind (winds that are at least 10mph and sustained). Power generated is related to turbine size and spacing requirements. I'll assume you want a single residential sized wind turbine with about a 30 ft blade and a 120 foot height. That would need about 250 square feet of clear space.
a turbine and wind!
Wind energy is generated by wind!! *gasp*
solar power comes from the sun and is generated from solar pannals. wind power comes from the wind and is generated from wind mills.
Wind power is not generated by countries, it is a global phenomena.