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Effects of Convoluted Divergent Flap Contouring on the Performance of a Fixed-Geometry Nonaxisymmetric Exhaust Nozzle

机译：卷曲发散轮廓对固定几何非轴对称排气喷管性能的影响

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An investigation was conducted in the model preparation area of the Langley 16-Foot Transonic Tunnel to determine the effects of convoluted divergent-flap contouring on the internal performance of a fixed-geometry, nonaxisymmetric, convergent-divergent exhaust nozzle. Testing was conducted at static conditions using a sub-scale nozzle model with one baseline and four convoluted configurations. All tests were conducted with no external flow at nozzle pressure ratios from 1.25 to approximately 9.50. Results indicate that baseline nozzle performance was dominated by unstable, shock-induced, boundary-layer separation at overexpanded conditions. Convoluted configurations were found to significantly reduce, and in some cases totally alleviate separation at overexpanded conditions. This result was attributed to the ability of convoluted contouring to energize and improve the condition of the nozzle boundary layer. Separation alleviation offers potential for installed nozzle aeropropulsive (thrust-minus-drag) performance benefits by reducing drag at forward flight speeds, even though this may reduce nozzle thrust ratio as much as 6.4% at off-design conditions. At on-design conditions, nozzle thrust ratio for the convoluted configurations ranged from 1% to 2.9% below the baseline configuration; this was a result of increased skin friction and oblique shock losses inside the nozzle.

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作者
Asbury, S. C. ; Hunter, C. A.;
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年度 1999
页码 1-75
总页数 75
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Convergent-divergent nozzles; Boundary layer separation; Wind tunnel nozzles; Wind tunnel tests; Nozzle flow; Oblique shock waves; Flow visualization; Nozzle geometry; Aerodynamic drag; Skin friction; Pressure ratio; Flaps(Control surfaces);

机译：收敛 - 扩散喷嘴;边界层分离;风洞喷嘴;风洞试验;喷嘴流动;倾斜冲击波;流动可视化;喷嘴几何形状;气动阻力;表面摩擦;压力比;襟翼（控制表面）;

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1. Effects of Heat Transfer in Divergent Section of Laval Nozzle on Exhaust Velocity and Area Ratio [J] . Yuki Iwaki, Tsuyoshi Totani, Masashi Wakita, Transactions of the Japan society for aeronautical and space sciences . 2011,第185a186期

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2. The influence of nozzle deflection on fluid dynamic and infrared characteristics of a two-dimensional convergent-divergent vectoring exhaust system [J] . Wang Hao, Ji Honghu, Lu Haohao Proceedings of the Institution of Mechanical Engineers . 2019,第12期

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3. BASE HEATING DUE TO RADIATION FROM THE ROCKET EXHAUST PLUMES AND NOZZLE DIVERGENTS [J] . M.J. Chacko, T.V. Radhakrishnan, A.K. Verma Journal of the Aeronautical Society of India . 2001,第4期

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4. Numerical Simulation of RCS for A Spherical Convergent Flap Nozzle with A Non-rectangular Divergent Duct [C] . CUI Jinhui, SHANG Shoutang, YANG Qingzhen, Congress of the International Council of the Aeronautical Sciences;International Council of the Aeronautical Sciences . 2014

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5. Nonaxisymmetric endwall contouring and leading edge modifications on turbine nozzle guide vanes [D] . Turgut, Ozhan Hulusi 2011

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6. Effects of Cavity on the Performance of Dual Throat Nozzle During the Thrust-Vectoring Starting Transient Process [O] . Rui Gu, Jinglei Xu -1

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7. Performance of a 2D-CD nonaxisymmetric exhaust nozzle on a turbojet engine at altitude [O] . Straight, D. M., Cullom, R. R. 1982

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8. Effects of Convoluted Divergent Flap Contouring on the Performance of a Fixed-Geometry Nonaxisymmetric Exhaust Nozzle [R] . Asbury, Scott C., Hunter, Craig A. 1999

机译：卷曲发散轮廓对固定几何非轴对称排气喷管性能的影响

Effects of Convoluted Divergent Flap Contouring on the Performance of a Fixed-Geometry Nonaxisymmetric Exhaust Nozzle

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