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Experimental study of ice accretion effects on aerodynamic performance of an NACA 23012 airfoil 被引量:15
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作者 Sohrab Gholamhosein Pouryoussefi Masoud Mirzaei +2 位作者 Mohammad-Mahdi Nazemi Mojtaba Fouladi Alireza Doostmahmoudi 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2016年第3期585-595,共11页
In this paper, the effects of icing on an NACA 23012 airfoil have been studied. Exper- iments were applied on the clean airfoil, runback ice, horn ice, and spanwise ridge ice at a Reynolds number of 0.6 x 10^6 over an... In this paper, the effects of icing on an NACA 23012 airfoil have been studied. Exper- iments were applied on the clean airfoil, runback ice, horn ice, and spanwise ridge ice at a Reynolds number of 0.6 x 10^6 over angles of attack from -8° to 20% and then results are compared. Gener- ally, it is found that ice accretion on the airfoil can contribute to formation of a flow separation bubble on the upper surface downstream from the leading edge. In addition, it is made clear that spanwise ridge ice provides the greatest negative effect on the aerodynamic performance of the airfoil. In this case, the stall angle drops about 10^6 and the maximum lift coefficient reduces about 50% which is hazardous for an airplane. While horn ice leads to a stall angle drop of about 4°and a maximum lift coefficient reduction to 21%, runback ice has the least effect on the flow pattern around the airfoil and the aerodynamic coefficients so as the stall angle decreases 2% and the maximum lift reduces about 8%. 展开更多
关键词 Airfoil icing Aviation accidents:Horn ice NACA 23012 airfoilrunback ice Separation bobble Spanwise ridge ice
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