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《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]

Issue:

2009年02期

Page:

30-36

Research Field:

研究与设计

Publishing date:

Info

Title:

Effect of geometric performance of counterflow parameters on thrust vectoring nozzle

Author(s):

Wang Mingsheng; Yang Jianjun

College of Energy and Power Engineering，Naming University of Aeronautics and Astronautics， Nanjing 210016，China

Keywords:

counterflow vectoring thrust; numerical simulation; geometric parameters; pneuma—- tic performance; main flow attachment

PACS:

V434

DOI:

-

Abstract:

The effect of main geometric parameters(height of secondary flow path G，collar's axial length L horizontal height C，and inclining angle 0 at the exit)on the internal performance of a counterflow vectoring thrust nozzle was studied by numerical simulation．The results show that the vectoring angle increases with the rise of L and G(≥0．35)，while synthesis thrust coefficient re— duces．But the smaller G(such as 0．2)leads to main flow attachment more easily．There is an optimal value of the internal performance while C=H(exit height of main nozzle)，which is corresponding to a maximum vectoring angle．0 has less influence on the internal performance of the nozzle， however it can restrict the nlaximum vectoring angle．

References:

[l]Hamed A,Laskowski G A,Parametric Study ofSlot Injection Thrust Vectoring in a 2DCD Nozzle[R]．AIAA 97-3154．
[2]Yagle P J，Miller D N，Ginn K B，et a1．Demonstration of Fluidic Throat Skewing for Thrust Vectoring in Structurally Fixed Nozzles[R]．2000-GT-0013。May 8-1 l， 2000．
[3]Deere K A，Berrier B L．Flamm J D．A Computational Study of a New Dual Throat Fluidic Thrust Vectoring Nozzle Concept[R]．AIAA 2005-3502．
[4]4 Strykowski PJ，Krothapalli A．111e Countercurrent Mixing Layer：．Strategies for Shear-layer Control[R]．AIAA93- 3260．
[5]Strykowski P J，Krothapalli A，Forliti D J．Counterflow Thrust Vectoring of Supersonic Jets[R]．AIAA96-01 15．
[6] Flamm,J D．Experimental Study of a Nozzle Using Fluidic Counterflow for Thrust Vectoring[R]．AIAA98-3255．
[7]杨建军．逆流控制的推力矢量喷管气动特性研究[D]．南 京：南京航空航天大学，2007．

Memo

Memo:

-

Common functions

Last Update: 1900-01-01