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

Issue:

2023年03期

Page:

105-114

Research Field:

目次

Publishing date:

Info

Title:

Numerical analysis on effect of engine jet on the aircraft drag

Author(s):

HAN Shanshan;  FENG Xiaoqiang;  LI Hongjun;  QUAN Jingge;  LIU Chang'an

(Xi'an Aerospace Propulsion Institute, Xi'an 710100, China)

Keywords:

base jet;  dual nozzle;  sub-tran-supersonic;  flow interaction;  drag increase

PACS:

V211

DOI:

-

Abstract:

The base drag plays an important role in the aircraft drag, so it is very important to predict the base drag accurately for the flight performance evaluation of the aircraft. The base jet has an obvious effect on the base drag of the aircraft. The flow simulation method based on the Reynolds-averaged Navier-Stokes equation was applied in the research on the interaction between the engine jet with the external flow. The effect of the engine jet on the drag of the aircraft was mainly analyzed. The engine with dual nozzle to achieve two kinds of trust was mounted on the body of the aircraft in the paper. The engine works in the corresponding thrust under different flight condition. The flow without jet, the flow with single nozzle jet and the flow with the dual nozzle jet were simulated in the condition of subsonic, transonic and supersonic to analyze the change of the drag. The results show that on one hand, at different Mach number, the effect of the engine jet on the base drag is basically the same. While on the another hand, compared to the flow without the jet, when the engine works with the single nozzle or the dual nozzle, the drag of the aircraft always increases due to the obvious jet injection effect.

References:

[1] 肖志祥,符松.用RANS/LES混合方法研究超声速底部流动[J].计算物理,2009,26(2):221-230.
[2] 林敬周,李桦,范晓樯,等.超声速底部喷流干扰流场数值模拟[J].空气动力学学报,2005,23(4):516-520.
[3] 吴振宇.关于超声速弹丸底部流动的若干问题[J].军械工程学院学报,1995(7):1-9.
[4] BANNINK W,HOUTMAN E,BAKKER P.Base flow/underexpanded exhaust plume interaction in a supersonic external flow[C]//8th AIAA International Space Planes and Hypersonic Systems and Technologies Conference.Reston,Virginia:AIAA,1998.
[5] 高瑞泽,阎超.超音速底部流动的大涡模拟研究[J].航空计算技术,2009,39(3):25-28.
[6] 柳长安,李光熙,吕奇伟.塞式喷管侧向喷流仿真研究[J].火箭推进,2013,39(2):59-62.
LIU Chang'an,LI Guangxi,LYU Qiwei,et al.Lateral jet simulation study of annular throat plug nozzle[J].Journal of Rocket Propulsion,2013,39(2):59-62.
[7] 黄国创.喷流干扰效应的一种估算方法[J].空气动力学学报,1984,2(2):83-86.
[8] 赵鹤书,王强.含喷流的尾支风洞实验模型底压计算及分析[J].空气动力学学报,1992,10(4):488-492.
[9] 赵鹤书,王强.火箭及导弹的底阻计算方法及其CRMBP程序[J].北京航空航天大学学报,1993,19(1):27-33.
[10] MENDENHALL M R.战术导弹空气动力学(下)[M].洪金森,杨其德,毛国良,等译.北京:宇航出版社,1999.
[11] 徐锦,何承军,郑泽.火箭助推器尾喷流对底阻干扰特性的数值模拟[J].战术导弹技术,2016(6):33-37.
[12] 王泽江,李杰,曾学军,等.逆向喷流对双锥导弹外形减阻特性的影响[J].航空学报,2020,41(12):124116.
[13] 刘杰平,杜志博,蔡巧言,等.发动机喷流对体襟翼干扰特性的数值模拟[J].气体物理,2019,4(3):11-16.
[14] 刘杰平,马元宏,蔡巧言,等.面对称重复使用运载器尾部喷流风洞试验[J].航空学报,2021,42(2):624043.
[15] BAKKER P,BANNINK W,SERVEL P,et al.CFD validation for base flows with and without plume interaction[C]//40th AIAA Aerospace Sciences Meeting and Exhibit.Reston,Virginia:AIAA,2002.
[16] KAWAI S,FUJII K.Computatinal analysis of the characteristics of subsonic,transonic and supersonic base flows[C]//35th AIAA Fluid Dynamics Conference and Exhibit.Reston,Virginia:AIAA,2005.

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