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This book reconsiders the basic approaches behind the BEM method and in particular assesses and validates the equations forming the general momentum theory. One part of the book concerns the validation, using numerical fluid mechanics (CFD), of the different terms in the equations forming the momentum theory. Other parts present new ideas for extending the theory and for enhancing the accuracy of the BEM approach. Besides a general introduction and explanation of the momentum theory, the book also deals with specialized topics, such as diffusor-augmented rotors, wind tunnel corrections, tip corrections, and combined momentum/vortex theory for design of wind turbine rotors. The book contains new as well as already published material, and the author has strived to put the material into a new and more consistent context than what usually is found in similar text books. The book is primarily intended for researchers and experienced students with a basic knowledge in fluid mechanics wishing to understand and expand their knowledge on wind turbine aerodynamics. The book is self-consistent, hence all necessary derivations are shown, and it should not be necessary to seek help in other literature to understand the contents of the book.
Horizontal axis wind turbines --- Wind turbines --- Wind power --- Aerodynamics --- Mathematical models
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Horizontal axis wind turbines --- Wind power industry --- Wind power plants --- Blades --- Design and construction --- Economic aspects
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Horizontal axis wind turbines --- Wind turbines --- Strains and stresses. --- Epoxy compounds. --- Blades
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This book reconsiders the basic approaches behind the BEM method and in particular assesses and validates the equations forming the general momentum theory. One part of the book concerns the validation, using numerical fluid mechanics (CFD), of the different terms in the equations forming the momentum theory. Other parts present new ideas for extending the theory and for enhancing the accuracy of the BEM approach. Besides a general introduction and explanation of the momentum theory, the book also deals with specialized topics, such as diffusor-augmented rotors, wind tunnel corrections, tip corrections, and combined momentum/vortex theory for design of wind turbine rotors. The book contains new as well as already published material, and the author has strived to put the material into a new and more consistent context than what usually is found in similar text books. The book is primarily intended for researchers and experienced students with a basic knowledge in fluid mechanics wishing to understand and expand their knowledge on wind turbine aerodynamics. The book is self-consistent, hence all necessary derivations are shown, and it should not be necessary to seek help in other literature to understand the contents of the book.
Horizontal axis wind turbines. --- Wind power. --- Wind turbines -- Aerodynamics -- Mathematical models. --- Mechanical Engineering - General --- Mechanical Engineering --- Engineering & Applied Sciences --- Wind turbines --- Aerodynamics --- Mathematical models. --- Wind energy --- Windpower --- HAWT (Horizontal axis wind turbines) --- Air-turbines --- Power resources --- Renewable energy sources --- Windmills --- Turbines --- Renewable energy sources. --- Hydraulic engineering. --- Production of electric energy or. --- Renewable and Green Energy. --- Engineering Fluid Dynamics. --- Power Electronics, Electrical Machines and Networks. --- Fluid- and Aerodynamics. --- Engineering, Hydraulic --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Alternate energy sources --- Alternative energy sources --- Energy sources, Renewable --- Sustainable energy sources --- Renewable natural resources --- Agriculture and energy --- Renewable energy resources. --- Fluid mechanics. --- Power electronics. --- Fluids. --- Mechanics --- Physics --- Hydrostatics --- Permeability --- Electronics, Power --- Electric power --- Electronics --- Hydromechanics --- Continuum mechanics
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