Effect Of Counterflow Argon Plasma Jet On Aerodynamic Drag Of A Blunt Body At Hypersonic Mach Numbers

D. Mahapatra; R. Sriram; G. Jagadeesh

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Effect Of Counterflow Argon Plasma Jet On Aerodynamic Drag Of A Blunt Body At Hypersonic Mach Numbers

机译：高超声速马赫数逆流氩等离子射流对钝体气动阻力的影响

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An experimental investigation of aerodynamic drag reduction by counter flow plasma jet injection from the stagnation region of a hemispherical blunt cylinder model flying at hypersonic Mach numbers are presented. Experiments are carried out in a hypersonic shock tunnel at four different jet-to-pitot pressure ratios namely 15·3, 24·52, 72·5 and 96·67 and three supply powers, namely 1·8KW, 2·7KW and 3·6KW. The flow fields around the test model are visualised using high speed schlieren technique. Direct force measurement is also performed using a single component accelerometer balance. The weakly ionised argon plasma jet has an electron temperature around 6,400K and electron number density ～1.64 × 10~(15)cm~(-3). With plasma jet at pressure ratio 72·5 and 1·8KW supply power the reduction in drag is found to be ～28% (more than its cold jet counter part) although the plasma jet momentum is less than its cold jet counter part.

机译：提出了从以高超声速马赫数飞行的半球形钝圆柱模型停滞区域通过逆流等离子体射流喷射减少空气阻力的实验研究。实验是在高超声速冲击隧道中以四种不同的喷射压力比（即15·3、24·52、72·5和96·67）以及三种供电功率（即1·8KW，2·7KW和3）进行的。 ·6KW。使用高速schlieren技术可视化测试模型周围的流场。也可以使用单分量加速度计天平执行直接力测量。弱离子化的氩等离子体射流的电子温度约为6,400K，电子数密度约为1.64×10〜（15）cm〜（-3）。在等离子射流的压力比为72·5和1·8KW的情况下，尽管等离子射流的动量小于其冷射流的反作用力，但阻力降低约为〜28％（大于其冷射流的反作用力）。

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来源
《The Aeronautical Journal》 |2008年第1137期|p.683-687|共5页
作者
D. Mahapatra; R. Sriram; G. Jagadeesh;
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作者单位

Department of Aerospace Engineering Indian Institute of Science Bangalore, India;

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原文格式 PDF
正文语种 eng
中图分类航空;
关键词
d model diameter (mm); h enthalpy (mj/kg); m mach number; re reynolds number; p static pressure (pa); t static temperature (k); u velocity (ms~(-1));

机译：d模型直径（mm）;h焓（mj / kg）;m马赫数;雷诺数;p静压力（pa）;t静态温度（k）;u速度（ms〜（-1））;

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专利

1. Counterflow drag reduction by supersonic jet for a blunt body in hypersonic flow [J] . Venukumar B, Jagadeesh G, Reddy KPJ Physics of fluids . 2006,第11期

机译：超声速射流逆流降低高超声速流中钝体的阻力
2. Drag reduction for the combination of spike and counterflow jet on blunt body at high Mach number flow [J] . Eghlima Z., Mansour K. Acta astronautica . 2017,第apra期

机译：在高马赫数流量下，钝体上的尖峰和逆流喷射相结合的减阻
3. A computational study on reduction of aerodynamic heating and drag over a blunt body in hypersonic turbulent flow using counter flow jet [J] . S. Aruna, S. P. Anjali Devi International Journal of Aerodynamics . 2012,第2a4期

机译：利用逆流射流减少高超音速湍流钝体气动加热和阻力的计算研究。
4. Aerodynamic Drag Reduction Using Aerospikes for Large Angle Blunt Cone Flying at Hypersonic Mach Number [C] . V. Menezes, S. Saravanan, G. Jagadeesh, AIAA Fluid Dynamics Conference and Exhibit . 2002

机译：使用气钉降低空气阻力，以高超声速马赫数飞行大角度钝锥
5. Development of Advanced Techniques for Aerodynamic Assessment of Blunt Bodies in Hypersonic Flows [D] . Fisher, Thomas B. 2019

机译：高超声波钝体空气动力学评估的先进技术
6. Anticancer Effects of Plasma-Activated Medium Produced by a Microwave-Excited Atmospheric Pressure Argon Plasma Jet [O] . Ara Jo, Hea Min Joh, Tae Hun Chung, 2020

机译：微波激发大气压氩等离子体射流产生的血浆激活培养基的抗癌效应
7. Leading-edge bluntness effects on aerodynamic heating and drag of power law body in low-density hypersonic flow [O] . W. F. N. Santos 2005

机译：低密度高超音速流动中前沿钝性对动力定律和空气动力加热和阻力的影响
8. Aerodynamic Drag on Spiked Blunt Bodies in Low-Density Hypersonic Flow [R] . Sims, W. H., Hahn, J. S. 1964

机译：低密度高超声速流中加标钝体的气动阻力

Effect Of Counterflow Argon Plasma Jet On Aerodynamic Drag Of A Blunt Body At Hypersonic Mach Numbers

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