The Experts below are selected from a list of 36 Experts worldwide ranked by ideXlab platform
H. Aa Madsen - One of the best experts on this subject based on the ideXlab platform.
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State of the art in wind turbine Aerodynamics and aeroelasticity
Progress in Aerospace Sciences, 2006Co-Authors: M. O.l. Hansen, S. Voutsinas, J. N. Sørensen, N. Sörensen, H. Aa MadsenAbstract:A comprehensive review of wind turbine aeroelasticity is given. The Aerodynamic Part starts with the simple Aerodynamic Blade Element Momentum Method and ends with giving a review of the work done applying CFD on wind turbine rotors. In between is explained some methods of intermediate complexity such as vortex and panel methods. Also the different approaches to structural modelling of wind turbines are addressed. Finally, the coupling between the Aerodynamic and structural modelling is shown in terms of possible instabilities and some examples. © 2006 Elsevier Ltd. All rights reserved.
M. O.l. Hansen - One of the best experts on this subject based on the ideXlab platform.
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State of the art in wind turbine Aerodynamics and aeroelasticity
Progress in Aerospace Sciences, 2006Co-Authors: M. O.l. Hansen, S. Voutsinas, J. N. Sørensen, N. Sörensen, H. Aa MadsenAbstract:A comprehensive review of wind turbine aeroelasticity is given. The Aerodynamic Part starts with the simple Aerodynamic Blade Element Momentum Method and ends with giving a review of the work done applying CFD on wind turbine rotors. In between is explained some methods of intermediate complexity such as vortex and panel methods. Also the different approaches to structural modelling of wind turbines are addressed. Finally, the coupling between the Aerodynamic and structural modelling is shown in terms of possible instabilities and some examples. © 2006 Elsevier Ltd. All rights reserved.
S. Voutsinas - One of the best experts on this subject based on the ideXlab platform.
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State of the art in wind turbine Aerodynamics and aeroelasticity
Progress in Aerospace Sciences, 2006Co-Authors: M. O.l. Hansen, S. Voutsinas, J. N. Sørensen, N. Sörensen, H. Aa MadsenAbstract:A comprehensive review of wind turbine aeroelasticity is given. The Aerodynamic Part starts with the simple Aerodynamic Blade Element Momentum Method and ends with giving a review of the work done applying CFD on wind turbine rotors. In between is explained some methods of intermediate complexity such as vortex and panel methods. Also the different approaches to structural modelling of wind turbines are addressed. Finally, the coupling between the Aerodynamic and structural modelling is shown in terms of possible instabilities and some examples. © 2006 Elsevier Ltd. All rights reserved.
J. N. Sørensen - One of the best experts on this subject based on the ideXlab platform.
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State of the art in wind turbine Aerodynamics and aeroelasticity
Progress in Aerospace Sciences, 2006Co-Authors: M. O.l. Hansen, S. Voutsinas, J. N. Sørensen, N. Sörensen, H. Aa MadsenAbstract:A comprehensive review of wind turbine aeroelasticity is given. The Aerodynamic Part starts with the simple Aerodynamic Blade Element Momentum Method and ends with giving a review of the work done applying CFD on wind turbine rotors. In between is explained some methods of intermediate complexity such as vortex and panel methods. Also the different approaches to structural modelling of wind turbines are addressed. Finally, the coupling between the Aerodynamic and structural modelling is shown in terms of possible instabilities and some examples. © 2006 Elsevier Ltd. All rights reserved.
N. Sörensen - One of the best experts on this subject based on the ideXlab platform.
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State of the art in wind turbine Aerodynamics and aeroelasticity
Progress in Aerospace Sciences, 2006Co-Authors: M. O.l. Hansen, S. Voutsinas, J. N. Sørensen, N. Sörensen, H. Aa MadsenAbstract:A comprehensive review of wind turbine aeroelasticity is given. The Aerodynamic Part starts with the simple Aerodynamic Blade Element Momentum Method and ends with giving a review of the work done applying CFD on wind turbine rotors. In between is explained some methods of intermediate complexity such as vortex and panel methods. Also the different approaches to structural modelling of wind turbines are addressed. Finally, the coupling between the Aerodynamic and structural modelling is shown in terms of possible instabilities and some examples. © 2006 Elsevier Ltd. All rights reserved.
