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趋于临界马赫数的圆柱跨声速绕流特性分析 被引量:2

Characteristics Analysis of the Transonic Flow past a Circular Cylinder Towards the Critical Mach Number
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摘要 通过深化认识趋于临界马赫数Macr的圆柱跨声速绕流特性,明确新型飞行器增升减阻设计的空气动力学理论依据。采用大涡模拟方法数值研究了来流马赫数Ma∞为0.75和0.85、雷诺数Re为2×105的圆柱跨声速绕流。结果表明:当Ma∞趋于临界马赫数(Macr≈0.9)时,圆柱的阻力下降且升力系数振荡被抑制;通过力的分解,得知圆柱的阻力减小来自旋涡力的影响,而非可压缩性;圆柱的阻力减小与其背压上升有关;剪切层初始阶段的对流马赫数Mac随Ma∞的增加而增大,而增长率相反,这使得剪切层更为稳定、柱体背压更高。此外,由于Ma∞=0.85时边界层分离点处的激波和尾迹处的激波向下游推移,使得近尾迹处的湍流脉动减弱,进而导致柱体的表面压力振荡和升力系数振荡被抑制。 Detailed knowledge about flow characteristics of the transonic flow past a circular cylinder towards the critical Mach number Macr can provide an aerodynamics theory basis for increased lift and drag reduction of the new aircraft.Numerical investigation of the transonic flow past a circular cylinder is carried out by means of an large eddy simulation technique for two free-stream Mach numbers Ma∞=0.75and 0.85,and Reynolds number based on the cylinder diameter Re=2×105.Results show that towards the critical Mach number(Macr≈0.9),drag of the cylinder is reduced and lift coefficient fluctuation is suppressed.Based on the force decomposition,it is found that the drag reduction is attributed to the vortex force rather than the compressing process.Usually,drag reduction of a bluff body is closely associated with the higher base pressure distribution.Analysis of the convective Mach number Mac indicates that Mac in the initial stage of the shear layers increases with Ma∞,while its growth rate decreases,which results in a more stable shear layer and higher pressure distribution.Furthermore,less turbulent fluctuation in the near wake of the circular cylinder at Ma∞=0.85 corresponds to the eliminated shock wave at the separation point and delayed shock wave in the near wake.Finally,the wall pressure fluctuation and fluctuating lift coefficient are suppressed.
作者 许常悦 赵立清 王从磊 孙建红
机构地区 南京航空航天大学航空宇航学院
出处 《航空学报》 EI CAS CSCD 北大核心 2012年第11期1984-1992,共9页 Acta Aeronautica et Astronautica Sinica
基金 国家自然科学基金(11202100) 江苏省自然科学基金(BK2011723) 中国博士后科学基金(20100481141 201104567) 中央高校基本科研业务费专项资金(NS2012032) 江苏省博士后科研资助计划(0902001C)~~
关键词 激波 圆柱 可压缩湍流 大涡模拟 亚格子模型 shock waves circular cylinder compressible turbulence large eddy simulation subgrid-scale model
分类号 V211.3 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献1

二级参考文献11

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共引文献15

同被引文献23

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航空学报
2012年 第11期

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