Numerical Simulation on the Effect of Tip Clearance Size on Unsteadiness in Tip Clearance Flow 被引量：8

Numerical Simulation on the Effect of Tip Clearance Size on Unsteadiness in Tip Clearance Flow

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摘要 Unsteadiness of tip clearance flow with three different tip clearance sizes is numerically investigated in this paper. NASA Rotor 67 is chosen as the computational model. It is found that among all the simulated cases, the un- steadiness exists when the size of the tip clearance is equal to or larger than design tip clearance size. The relative total pressure coefficient contours indicate that region of influence by tip leakage flow augments with the increase of tip clearance size at a fixed mass flow rate. Root Mean Square contours of static pressure distribution in the rotor tip region are provided to illustrate that for design tip clearance （1.1% tip chord） the strongest fluctuating region is located on pressure side of blade near leading edge, while for the larger tip clearance （2.2% tip chord）, it is in the region of the interaction between the shock wave and the tip leakage flow.

作者 Juan Du Feng Lin Hongwu Zhang Jingyi Chen

机构地区 Institute of Engineering Thermophysics Key Laboratory of Advanced Energy and Power Graduate School of Chinese Academy of Sciences

出处《Journal of Thermal Science》 SCIE EI CAS CSCD 2008年第4期337-342,共6页 热科学学报（英文版）

基金 National Basic Research Program 2007CB210104 of China National Natural Science Foundation of China,Grant 50736007

关键词 tip clearance flow tip leakage flow UNSTEADINESS transonic rotor 转子热物理学调查研究

分类号 TH13 [机械工程—机械制造及自动化]

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