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一种叶轮机三维叶型黏性反问题方法
引用本文:宁方飞,贾新亮,鞠鹏飞. 一种叶轮机三维叶型黏性反问题方法[J]. 航空动力学报, 2016, 31(6): 1530-1536. DOI: 10.13224/j.cnki.jasp.2016.06.031
作者姓名:宁方飞  贾新亮  鞠鹏飞
作者单位:北京航空航天大学 能源与动力工程学院航空发动机气动热力国家级重点实验室, 北京 100191
摘    要:提出了一种应用于叶轮机三维叶片气动设计的黏性反问题方法,该方法将叶片表面边界视为是运动的壁面,通过建立并求解壁面法向动量方程,从而可根据给定的压力分布或压力面与吸力面之间的压力差分布直接求解叶型几何.结果表明:该方法可与定常雷诺平均Navier-Stokes(RANS)模拟配合进行求解,鲁棒性强、计算耗时短,且符合真实黏性流动环境,无需对叶型进行黏性修正.算例验证结果显示,该方法在单排和多排叶片环境下都能获得反问题解,计算稳定性和收敛性良好. 

关 键 词:反问题   叶轮机   叶型   三维黏性流动   计算流体力学(CFD)
收稿时间:2014-09-17

A viscous inverse problem method for turbomachinery three-dimensional blade profile
NING Fang-fei,JIA Xin-liang and JU Peng-fei. A viscous inverse problem method for turbomachinery three-dimensional blade profile[J]. Journal of Aerospace Power, 2016, 31(6): 1530-1536. DOI: 10.13224/j.cnki.jasp.2016.06.031
Authors:NING Fang-fei  JIA Xin-liang  JU Peng-fei
Affiliation:National Key Laboratory of Science and Technology on Aero-Engine Aero-thermodynamic, School of Energy and Power Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China
Abstract:A viscous inverse problem method used in turbomachinery blade aerodynamic design was presented. The proposed method could be used to directly solve the blade geometry according to the given objective surface pressure distribution or pressure difference distribution from pressure side to suction side. In the proposed method, the blade surface was considered as movable wall, and the movement of the blade wall was evaluated on the basis of the solution of the momentum equation along the normal direction of blade wall. Result shows that,the proposed method is quite robust and needs less computational resources because it is based on the steady RANS(Reynolds-averaged Navier-stokes) simulation, and it does not need viscous correction since the simulation itself is in the real viscous flow environment. Examples using the developed inverse problem method were presented. Verification results show that the proposed method can achieve the desired target in both single blade row and multi-blade row environment, and computational process has good stability and convergence.
Keywords:inverse problem  turbomachinery  blade profile  three-dimensional viscous flow  computational fluid dynamics (CFD)
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