Overview
ABSTRACT
One describes the physics of the blade. Optimizing its efficiency requires to find the best angle between the blade surface and the wind direction. This angle depends on the distance to the rotation axis, which leads to the intricate shape of the blades of large mills. The best efficiency of large mills, with respect to the wind energy, does not exceed 15%. Flying of the blade creates a wake whose persistence explains why it is generally possible to characterize wind mills by the area swept through by the blades. When mills are grouped into parks one finds that, in order to prevent mutual negative interferences, their power density should not exceed 10 W/m2. Wind variability at the European scale does not allow a guaranteed power larger than a few per cent . In order to stop 10% of French reactors, the necessary area of marine PSS reservoirs would require equipment of 3500 km of coast.
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Read the articleAUTHOR
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Hervé NIFENECKER: Professor at the university inter-age of Dauphiné (UIAD) - Honorary president of the association “Sauvons le climat (Save the climate)” - Founder of the “Global Initiative to Save Our Climate (GISOC)”
INTRODUCTION
Wind turbines are now part of the European landscape. They have become the models of renewable energy, their only rivals being photovoltaic panels, to the point that we seem to have forgotten the massive structures connected with hydroelectricity. Nuclear reactors are a daily feature of the media, but rarely in a positive way. Technically-aware French people have some idea of the operating principles of reactors, hydroelectric dams and photovoltaic cells. Paradoxically, while windmills are among the oldest mechanical energy generation devices, the operating principles of wind turbines are largely unknown. Betz’s law , which links the power of the wind turbine to the wind speed and the area swept by the blades, which is a generalised approach to the wind turbine, is quite well known by the initiated. At the other extreme, you have reference books such as that of Cunty (physics very close to that of wind propulsion), which explain how a blade in isolation responds to the forces exerted by wind on its surface. However, it is difficult to find out how to reconcile these seemingly contradictory approaches . Much more astonishing, while the forces exerted by the wind are handled correctly, those due to air resistance are not. This article aims to present a unified and analytical presentation of the set of phenomena involved in the transformation of wind energy into electricity . The derivation of Betz’s law provides a maximum efficiency value for wind turbines. The traditional presentation of the interaction between the wind and a wind turbine blade enables us to define the drag and lift forces as well as corresponding coefficients. This approach enables to optimise the angle of attack of the blade by the wind but remains static...
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KEYWORDS
Weibull | Betz | wind |
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The physics of wind turbines
Bibliography
Websites
Wind power – from Wikipedia https://en.wikipedia.org.wiki/Wind_power
Wind Energy Development Programmatic EIS http://www.windeis.anl.gov/index.cfm
Directory
Delft University Wind energy research institute DUWind (États-Unis)
Texas Tech University’s National Wind Institute NW (États-Unis)
National Wind Technology Center (États-Unis)
Risø DTU National Laboratory for Sustainable Energy (Danemark)
Fraunhofer Institute for Wind Energy and Energy System Technology (-Allemagne)
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