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The effect of variations in first- and second-order derivatives on airfoil aerodynamic performance
Yi, Penghui Wang, Ying Sun, Xiaojing Huang, Diangui Zheng, Zhongquan
Yi, Penghui
Wang, Ying
Sun, Xiaojing
Huang, Diangui
Zheng, Zhongquan
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Abstract
The geometric factors which influence airfoil aerodynamic performance are attributed to variations in local first- and second-order curvature derivatives. Based on a self-developed computational fluid dynamics (CFD) program called UCFD, the influence of local profile variations on airfoil aerodynamic performance in different pressure areas is investigated. The results show that variations in first- and second-order derivatives of the airfoil profiles can cause fluctuations in airfoil aerodynamic performance. The greater the variation in local first- and second-order derivatives, the greater the fluctuation amplitude of the airfoil aerodynamic coefficients. Moreover, at the area near the leading edge and the shock-wave position, the surface pressure is more sensitive to changes in first- and second-order derivatives. These results provide a reference for airfoil aerodynamic shape design.
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Date
2016-12-04
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Taylor & Francis
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Yi_2017.pdf
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Keywords
Geometric airfoil profile, Derivative, Variation, Surface pressure coefficient
Citation
Penghui Yi, Ying Wang, Xiaojing Sun, Diangui Huang & Zhongquan Zheng (2017) The effect of variations in first- and second-order derivatives on airfoil aerodynamic performance, Engineering Applications of Computational Fluid Mechanics, 11:1, 54-68, DOI: 10.1080/19942060.2016.1246264