Theoretical analysis of effects of boundary layer bleed on scramjet thrust 被引量：3

Theoretical analysis of effects of boundary layer bleed on scramjet thrust

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摘要 The effects of boundary layer bleed on the scramjet thrust are studied in the present paper.A theoretical model is developed to evaluate the thrust increment and influencing factors.The thrust increment resulting from the bleed is dominated by the rise in total pressure recovery and bleed mass flow rate.The bleed mass flow rate exerts stronger impact on the engine thrust than the total pressure.According to current bleed design,it is a severe challenge for the engine to enhance its total pressure to maintain the original thrust when there is no bleeding.Furthermore,the initial total pressure recovery,fuel mass addition,combustion efficiency and area ratio of engine exit to entrance can affect the contributions of the bleeding to the thrust increment.The scramjet needs a higher rise in total pressure recovery to counteract the negative effect of bleed mass loss at higher initial total pressure recovery or larger area ratio of engine exit/entrance.More heat release results in a little lower demand on the rise in total pressure recovery for maintaining the scramjet thrust.These results will aid in understanding the fundamental mechanism of bleeding on engine thrust. The effects of boundary layer bleed on the scramjet thrust are studied in the present paper. A theoretical model is developed to evaluate the thrust increment and influencing factors. The thrust increment resulting from the bleed is dominated by the rise in total pressure recovery and bleed mass flow rate. The bleed mass flow rate exerts stronger impact on the engine thrust than the total pressure. According to current bleed design, it is a severe challenge for the engine to enhance its total pressure to maintain the original thrust when there is no bleeding. Furthermore, the initial total pressure recovery, fuel mass addition, combustion efficiency and area ratio of engine exit to entrance can affect the contributions of the bleeding to the thrust increment. The scramjet needs a higher rise in total pressure recovery to counteract the negative effect of bleed mass loss at higher initial total pressure recovery or larger area ratio of engine exit/entrance. More heat release results in a little lower demand on the rise in total pressure recovery for maintaining the scramjet thrust. These results will aid in understanding the fundamental mechanism of bleeding on engine thrust.

作者 YUE LianJie XU XianKun CHANG XinYu

机构地区 State Key Laboratory of High Temperature Gas Dynamics

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2013年第10期1952-1961,共10页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.90716014 and 91216115)

关键词 SCRAMJET boundary layer bleed theoretical analysis engine thrust 发动机推力超燃冲压边界层总压恢复血影质量流率影响因素燃料质量

分类号 TK401 [动力工程及工程热物理—动力机械及工程]

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参考文献30

1Riggins D W, McClinton C R, Vitt P H. Thrust losses in hypersonic engines. J Propul Power, 1997, 13(2): 281-287.
2Seddon J, Goldsmith E L. Intake Aerodynamics. New York: AIAA Education Series, AIAA, 1985. 189-216.
3Dirk Herrmann, Sergej Blem, Ali Gülhan. Experimental study of boundary-layer bleed impact on ramjet inlet performance. J Propul Power, 2011, 27(6): 1186-1195.
4Kyung Jin Ryu, Seol Lim, Dong Joo Song. A computational study of the effect of angles of attack on a double-cone type supersonic inlet with a bleeding system. Comput Fluids, 2011, 50: 72-80.
5Slater W J, Saunders J D. Modeling of fixed-exit porous bleed systems for supersonic inlets. J Propul Power, 2010, 26(2): 193-202.
6Sanders B W, Cubbison R W. “Effect of bleed-system back pressure and porous area on the performance of an axisymmetric mixed compression inlet at Mach 2.50. NASA TM X-1710. 1968.
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8Fukuda M K, Roshotko E, Hingst W R. Control of shock-wave boundary-layer interactions by bleed in supersonic mixed compression inlets. AIAA Paper, 1975, AIAA-75-1182.
9Wong W F. The application of boundary layer suction to suppress strong shock-induced separation in supersonic inlets. AIAA Paper, 1974, AIAA-74-1063.
10Wasserbauer J F, Shaw R J, Neumann H E. Minimizing boundary-layer bleed for a mixed compression inlet. AIAA Paper, 1973, AIAA-73-1270.

二级参考文献40

1Riggins D W, McClinton C R, Vitt P H. Thrust losses in hypersonic engines. J Propul Power, 1997, 13(2): 281-287.
2Seddon J, Goldsmith E L. Intake Aerodynamics. New York: AIAA Education Series, AIAA, 1985. 189-216.
3Dirk Herrmann, Sergej Blem, Ali Gülhan. Experimental study of boundary-layer bleed impact on ramjet inlet performance. J Propul Power, 2011, 27(6): 1186-1195.
4Kyung Jin Ryu, Seol Lim, Dong Joo Song. A computational study of the effect of angles of attack on a double-cone type supersonic inlet with a bleeding system. Comput Fluids, 2011, 50: 72-80.
5Slater W J, Saunders J D. Modeling of fixed-exit porous bleed systems for supersonic inlets. J Propul Power, 2010, 26(2): 193-202.
6Sanders B W, Cubbison R W. “Effect of bleed-system back pressure and porous area on the performance of an axisymmetric mixed compression inlet at Mach 2.50. NASA TM X-1710. 1968.
7Syberg J, Konesek J L. Bleed system design technology for supersonic inlets. J Aircraft, 1973, 10(7): 407-413.
8Fukuda M K, Roshotko E, Hingst W R. Control of shock-wave boundary-layer interactions by bleed in supersonic mixed compression inlets. AIAA Paper, 1975, AIAA-75-1182.
9Wong W F. The application of boundary layer suction to suppress strong shock-induced separation in supersonic inlets. AIAA Paper, 1974, AIAA-74-1063.
10Wasserbauer J F, Shaw R J, Neumann H E. Minimizing boundary-layer bleed for a mixed compression inlet. AIAA Paper, 1973, AIAA-73-1270.

共引文献4

1徐杨,冯立好.距离对合成射流涡环撞击壁面的影响[J].中国科学：技术科学,2013,43(10):1112-1120.
2YUE LianJie,LU HongBo,XU Xiao,CHANG XinYu.Aerothermal characteristics of bleed slot in hypersonic flows[J].Science China(Physics,Mechanics & Astronomy),2015,58(10):46-59. 被引量：2
3LI Tao,SUI JingXia,GONG Sheng,WU ChuiJie.Dynamical separation of rigid bodies in supersonic flow[J].Science China(Technological Sciences),2015,58(12):2110-2121. 被引量：1
4张卫国,史喆羽,李国强,杨永东,黄明其,白云卯.风力机翼型动态失速等离子体流动控制数值研究[J].力学学报,2020,52(6):1678-1689. 被引量：9

同被引文献44

1WU GuangJie National Astronomical Observatories/Yunnan Observatory,Chinese Academy of Sciences,Kunming 650011,China.How to estimate the effect of an intense meteor shower on human space activities[J].Science China(Physics,Mechanics & Astronomy),2009,52(8):1161-1168. 被引量：1
2WU KaiTeng1,2,HAO Li3,WANG Cheng4 & ZHANG Li1,2 1 Numerical Simulation Sichuan Higher School Key Laboratory,Neijiang Normal University,Neijiang 641112,China,2 College of Mathematics and Information Science,Neijiang Normal University,Neijiang 641112,China,3 College of Science,Beijing University of Civil Engineering and Architecture,Beijing 100044,China,4 State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,Beijing 100081,China.Level Set interface treatment and its application in Euler method[J].Science China(Physics,Mechanics & Astronomy),2010,53(2):227-236. 被引量：7
3Riggins D W, McClinton C R, Vitt P H. Thrust losses in hypersonic engines. J Propul Power, 1997, 13(2): 281-287.
4Seddon J, Goldsmith E L. Intake Aerodynamics. New York: AIAA Education Series, AIAA, 1985. 189-216.
5Dirk Herrmann, Sergej Blem, Ali Gülhan. Experimental study of boundary-layer bleed impact on ramjet inlet performance. J Propul Power, 2011, 27(6): 1186-1195.
6Kyung Jin Ryu, Seol Lim, Dong Joo Song. A computational study of the effect of angles of attack on a double-cone type supersonic inlet with a bleeding system. Comput Fluids, 2011, 50: 72-80.
7Slater W J, Saunders J D. Modeling of fixed-exit porous bleed systems for supersonic inlets. J Propul Power, 2010, 26(2): 193-202.
8Sanders B W, Cubbison R W. “Effect of bleed-system back pressure and porous area on the performance of an axisymmetric mixed compression inlet at Mach 2.50. NASA TM X-1710. 1968.
9Syberg J, Konesek J L. Bleed system design technology for supersonic inlets. J Aircraft, 1973, 10(7): 407-413.
10Fukuda M K, Roshotko E, Hingst W R. Control of shock-wave boundary-layer interactions by bleed in supersonic mixed compression inlets. AIAA Paper, 1975, AIAA-75-1182.

引证文献3

1YUE LianJie,XU XianKun,CHANG XinYu.Theoretical analysis of effects of boundary layer bleed on scramjet thrust[J].Science China(Physics,Mechanics & Astronomy),2013,56(10):1952-1961. 被引量：3
2YUE LianJie,LU HongBo,XU Xiao,CHANG XinYu.Aerothermal characteristics of bleed slot in hypersonic flows[J].Science China(Physics,Mechanics & Astronomy),2015,58(10):46-59. 被引量：2
3LI Tao,SUI JingXia,GONG Sheng,WU ChuiJie.Dynamical separation of rigid bodies in supersonic flow[J].Science China(Technological Sciences),2015,58(12):2110-2121. 被引量：1

二级引证文献6

1YUE LianJie,XU XianKun,CHANG XinYu.Theoretical analysis of effects of boundary layer bleed on scramjet thrust[J].Science China(Physics,Mechanics & Astronomy),2013,56(10):1952-1961. 被引量：3
2YUE LianJie,LU HongBo,XU Xiao,CHANG XinYu.Aerothermal characteristics of bleed slot in hypersonic flows[J].Science China(Physics,Mechanics & Astronomy),2015,58(10):46-59. 被引量：2
3LI Tao,SUI JingXia,GONG Sheng,WU ChuiJie.Dynamical separation of rigid bodies in supersonic flow[J].Science China(Technological Sciences),2015,58(12):2110-2121. 被引量：1
4沙心国,文帅,袁明论,卢洪波,纪锋.基于气体放电的高超声速激波结构显示技术[J].实验流体力学,2018,32(3):87-93. 被引量：2
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