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Lift correction model for local shear flow effect on wind turbine airfoils

Author

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  • Lee, Kyung Seh
  • Chung, Chin Hwa
  • Baek, Je Hyun

Abstract

Wind turbines operate under various wind conditions in which turbulence virtually always exists. Therefore, unsteady wind turbine simulation methods to estimate wind loading in turbulent inflow conditions are very important for developing optimally designed wind turbines. Several methods have been developed for this purpose and are usually based on the blade element momentum theory (BEMT), which is used for calculation of the wind loading on turbine blades. The local shear flow effect induced by turbulence, however, is not explicitly considered in the popular BEMT-based simulations. Extreme situations can occur in a large-scale wind farm where the inflow field of a wind turbine may contain strong tip vortices generated from upstream turbines. In this study, the effects of idealized local shear flows around a two-dimensional airfoil, S809, on its aerodynamic characteristics were analyzed by CFD simulations. Various parameters including reference inflow velocity, shear rate, angle of attack, and cord length of the airfoil were examined. From the simulation results, several important characteristics were found. The shear rate in a flow causes some changes in the lift coefficient depending on its sign and magnitude, while the angle of attack does not have a distinguishable influence. The chord length and reference inflow also cause proportional and inversely proportional changes in the lift coefficient, respectively. Based on these observations, we adopted an analytic expression for the lift coefficient from the thin airfoil theory and proposed a lift correction model, which is easily applicable to the traditional load analysis procedure based on the BEMT.

Suggested Citation

  • Lee, Kyung Seh & Chung, Chin Hwa & Baek, Je Hyun, 2014. "Lift correction model for local shear flow effect on wind turbine airfoils," Renewable Energy, Elsevier, vol. 65(C), pages 275-280.
  • Handle: RePEc:eee:renene:v:65:y:2014:i:c:p:275-280
    DOI: 10.1016/j.renene.2013.10.012
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    Cited by:

    1. Douak, M. & Aouachria, Z. & Rabehi, R. & Allam, N., 2018. "Wind energy systems: Analysis of the self-starting physics of vertical axis wind turbine," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P1), pages 1602-1610.

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