基于N-S方程的翼型实验侧壁边界层控制  

Side-wall boundary layer removal at airfoil test  based on Navier-Stokes equations

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作  者:王大海 苏彬 陈志敏[2] 徐敏[2] 

机构地区:[1]民航飞行学院科研处,四川广汉618307 [2]西北工业大学飞机系,陕西西安710072

出  处:《空气动力学学报》2004年第1期93-96,共4页Acta Aerodynamica Sinica

基  金:民航飞行学院科研基金资助项目(J2000 30).

摘  要:使用三维可压、雷诺平均N-S方程数值计算了NACA0012翼型在二元翼型风洞中不同迎角和马赫数状态下的压力分布,改进了划分计算网格的Hilgenstock方法,发展了一种利用N S方程计算结果,来确定翼型实验中为消除侧壁边界层干扰的抽气压力的方法。通过比较利用本文介绍的方法计算的NACA0012翼型实验侧壁抽气压力和相同状态下,在西北工业大学0.3m×0.1m二维跨音速风洞中经油流显示证明为合适的抽气压力,结果表明该方法是可行的。Pressure distribution of NACA 0012 airfoil mounted in two-dimensional wind-tunnel at given angle of attack and Mach number is computed by solving three-dimensional compressible Renolds-averaged Navier-Stokes equations. Much improvement has been made in Hilgenstock's approach adopted to generate body-fitted grid by solving Poisson equations in order to decrease CPU time. A new numerical method of calculating appropriate suction pressure which is adopted in side-wall boundary removal is presented. Comparison between calculated suction pressure of NACA0012 airfoil and tested suction pressure at the same status which is proved correct by oil-flow-picture in Northwest Polytechnic University(NPU) 0.3m×01m two-dimensional transonic wind-tunnel demonstrated that the method developed in this paper is accurate and useable.

关 键 词:Hilgenstock方法 侧壁边界层 侧壁抽气 侧壁干扰 翼型实验 N—S方程 风洞实验 计算 

分 类 号:V211.7[航空宇航科学与技术—航空宇航推进理论与工程] V211.3

 

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