Wind Energy - Physics

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Wind Power

The power P of a wind-stream, crossing an area A with velocity v is given by

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It varies proportional to air density ρ, to the crossed area A and to the cube of wind velocity v

The Power P is the kinetic energy

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of the air-mass m crossing the area during a time interval

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Because power is energy per time unit, combining the two equations leads back to the primary mentioned basic relationship of wind energy utilisation

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The power of a wind-stream is transformed into mechanical energy by a wind turbine through slowing down the moving air-mass which is crossing the rotor area. For a complete extraction of power, the air-mass would have to be stopped completely, leaving no space for the following air-masses. Betz and Lanchester found, that the maximum energy can be extracted from a wind-stream by a wind turbine, if the relation of wind velocities in front of (v1) and behind the rotor area (v2) is v1 / v2 = 1 / 3. The maximum power extracted is then given by

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where cp.B'e't'z = 0,59 is the power coefficient giving the ratio of the total amount of wind energy which can be extracted theoretically, if no losses occur. Even for this ideal case only 59% of wind energy can be used. In practice power coefficients are smaller: todays wind turbines with good blade profiles reach values of cp.B'e't'z = 0,5.


Unit Abbreviations

m = metre = 3.28 ft.
HP = horsepower
s = second
J = Joule
h = hour
cal = calorie
N = Newton
toe = tonnes of oil equivalent
W = Watt
Hz = Hertz (cycles per second)





10− 12 = p pico = 1/1000,000,000,000

10− 9 = n nano = 1/1000,000,000

10− 6 = µ micro = 1/1000,000

10− 3 = m milli = 1/1000

103 = k kilo = 1,000 = thousands

106 = M mega = 1,000,000 = millions

109 = G giga = 1,000,000,000

1012 = T tera = 1,000,000,000,000

1015 = P peta = 1,000,000,000,000,000


Portal:Wind