T Wang scite author profile

T Wang

2Publications

35Citation Statements Received

37Citation Statements Given

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University of Glasgow

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The prediction of horizontal axis wind turbine performance in yawed flow using an unsteady prescribed wake model

Coton

Wang

1999

Proceedings of the Institution of Mechanical Engineers, Part A:

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This paper describes a fast, accurate, fully unsteady aerodynamic prediction scheme for the calculation of horizontal axis wind turbine performance in yawed flow. The method couples a prescribed wake vortex model with a semi-empirical unsteady aerofoil model to provide the unsteady aerodynamic response of the blades owing to the cyclic variation of incidence. Predictions from the model are shown to compare well with experiment, both in terms of gross performance prediction and detailed blade loads. Finally, the potential for future improvements to the predictive capability of the model is discussed.

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Prediction of the unsteady aerodynamic characteristics of horizontal axis wind turbines including three-dimensional effects

Wang

Coton

2000

Proceedings of the Institution of Mechanical Engineers, Part A:

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An unsteady aerodynamic model for horizontal axis wind turbine performance prediction has been extended to consider three-dimensional (3D) rotational effects. The method couples a prescribed wake vortex scheme with a semi-empirical unsteady aerofoil model to provide the unsteady response of the blades due to the cyclic variation of incidence. The wake geometry of the turbine and the basic aerodynamic parameters required by the unsteady aerofoil model are calculated from the prescribed wake model using two-dimensional aerofoil data. The 3D rotational effects are then taken into account by a series of corrections to the unsteady aerofoil model. Application of these corrections has yielded substantial improvements in the prediction of aerodynamic force and moment coefficients on inboard blade sections. This is illustrated by a series of comparisons with field data. In general, the method is shown to give accurate predictions over a range of operating conditions and inflow angles.

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T Wang

The prediction of horizontal axis wind turbine performance in yawed flow using an unsteady prescribed wake model

Prediction of the unsteady aerodynamic characteristics of horizontal axis wind turbines including three-dimensional effects

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