Solution Method for Singular Initial Value Problems of One-dimensional Steady Transonic Flow in a Dual-mode Scramjet 被引量：1

超燃冲压发动机一维稳态跨声速流动奇异初值问题的一个解法(英文)

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摘要 Singular initial value problems arise in solving one-dimensional steady transonic flow of dualmode scramjet. The existing solution method has the problems of large initial value errors in principles. This paper puts forward an improved algorithm based on variable transformation, and constructs a nonsingular one-dimensional steady transonic flow equation by defining a new variable. The improved algorithm can eliminate the singularity of the differential equation, and can solve the singular initial value problems of one-dimensional steady transonic flow of dual-mode scramjet. Singular initial value problems arise in solving one-dimensional steady transonic flow of dualmode scramjet. The existing solution method has the problems of large initial value errors in principles. This paper puts forward an improved algorithm based on variable transformation, and constructs a nonsingular one-dimensional steady transonic flow equation by defining a new variable. The improved algorithm can eliminate the singularity of the differential equation, and can solve the singular initial value problems of one-dimensional steady transonic flow of dual-mode scramjet.

作者崔涛于达仁鲍文

机构地区 College of Energy Science and Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2005年第2期97-101,共5页 中国航空学报（英文版）

基金 Hi TechResearchandDevelopmentProgramofChina(2002AA723011),OutstandingYouthFoundationofHeilongjiang Province

关键词 SCRAMJET one-dimensional analysis transonic flow singular initial value problem scramjet one-dimensional analysis transonic flow singular initial value problem

分类号 V231.2 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献9

1宋文艳,黎明,蔡元虎,刘伟雄,白菡尘.Experimental Investigation of Hydrocarbon-fuel Ignition in Scramjet Combustor[J].Chinese Journal of Aeronautics,2004,17(2):65-71. 被引量：9
2Oevermann M. Numerical investigation of turbulent hydrogen combustion in a scramjet using flamelet modeling[J]. Aerospace Science and Technology, 2000, 4(7): 463-480.
3Billig F S. Research on supersonic combustion[J]. Journal of Propulsion and Power, 1993, 9(4): 499-513.
4Waltrup P J, Billig F S. Structure of shock waves in cylindrical ducts[J]. AIAA Journal, 1973, 11(9): 1404-1408.
5Ferri A. Review of scramjet propulsion technology[J]. Journal of Aircraft, 1968, 5(1):3-10.
6Ikawa H. Rapid methodology for design and performance prediction of integrated scramjet/hypersonic vehicle[R]. AIAA Paper 89-2682, 1989.
7Timothy F O, Ryan P S, Mark J L. Quasi-one-dimensional high-speed engine model with finite-rate chemistry[J]. Journal of Propulsion and Power, 2001, 17(6): 1366-1374.
8Dessornes O. Tests of the JAPHAR dual mode ramjet engine[R]. AIAA 2001-1886, 2001.
9Heiser W H, Pratt D T. Hypersonic Airbreathing Propulsion[M]. Washington D C:American Institute of Aeronautics and Astronautics, 1994.

共引文献8

1马光伟,孙明波,赵国焱,李凡,梁昌海,陈慧锋.不同壁温及差分格式下超燃冲压发动机的仿真[J].航空学报,2021,42(S01):16-27. 被引量：3
2王靛,宋文艳,李建平,蔡元虎.超燃冲压发动机燃烧室碳氢燃料的点火和火焰稳定研究(英文)[J].固体火箭技术,2008,31(5):449-452. 被引量：9
3龚诚,孙明波,张顺平,梁剑寒.超声速燃烧室氢气强迫点火过程实验[J].推进技术,2012,33(4):547-551. 被引量：7
4Yang Qingchun,Bao Wen,Chetehouna Khaled,Zhang Silong,Gascoin Nicolas.Thermal behavior of an isolator with mode transition inducing back-pressure of a dual-mode scramjet[J].Chinese Journal of Aeronautics,2017,30(2):595-601. 被引量：4
5Fan LI,Mingbo SUN,Jiajian ZHU,Zun CAI,Hongbo WANG,Yanxiang ZHANG,Yongchao SUN.Scaling effects on combustion modes in a single-side expansion kerosene-fueled scramjet combustor[J].Chinese Journal of Aeronautics,2021,34(5):684-690. 被引量：3
6晏成龙,赵家丰,舒晨,李婉芸,林伟.气-液组合横向射流中气体种类的影响[J].气体物理,2023,8(1):79-88. 被引量：1
7纪鉴恒,蔡尊,王泰宇,孙明波,王振国.宽速域超燃冲压发动机流动燃烧过程研究进展[J].航空学报,2024,45(3):19-45. 被引量：8
8晏成龙,吴刚强,姜传金,李庚,郭康康,鲍瑞瑞,林伟.气体辅助横向射流中组合方式的影响[J].气体物理,2025,10(3):61-72.

同被引文献15

1Heiser W H, Pratt D T. Hypersonic airbreathing propul- sion[M]. Washington, DC: AIAA Education Series, 1994.
2Olds J R, Bradford J E. SCCREAM (simulated combined- cycle rocket engine analysis module):a conceptual RBCC engine design tool[R]. AIAA-97-2760,1997.
3Bradford J E, Olds J R. Improvements and enhancements to SCCREAM, a conceptual RBCC engine analysis tool [R]. AIAA-98-3775,1998.
4Bradford J E. A technique for rapid prediction of aft-body nozzle performance for hypersonic launch vehicle design[D]. Georgia:Dissertation of Georgia Institute of Technol- ogy,2001.
5Billig F S,Sullins G A. Optimization of combustor-isolator in dual-mode scramjets[R]. AIAA-93-515,1993.
6Billig F S. Research on supersonic combustion[J]. Journal of Propulsion and Power,1993,9(4):499-513.
7Shapiro A H. The dynamics and thermodynamics of com- pressible fluid flow: volume I[M]. New York: Ronald Press,1953.
8Corbin C R. Design and analysis of a Mach 3 duai mode scramjet combustor[R]. AIAA-2008 02644,2008.
9Nestler D E,Daywitt J E. Boundary layer separation corre- lations for hypersonic inlet analyses[R]. General Electric Report AMJ-86-01,1986.
10Biasca R J. Chemical kinetics of SCRAMJET propulsion [D]. Massachusetts.. Massachusetts Institute of Technolo- gy,1988.

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1黄兴,陈玉春,王晓东,李洁,蔡元虎.超燃冲压发动机流量匹配机理[J].航空动力学报,2014,29(4):852-857. 被引量：1
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4黄兴,蔡建兵,陈玉春.双模态超燃冲压发动机最大供油模态计算方法研究[J].推进技术,2017,38(1):34-39.

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2航空、航天科学技术[J].中国学术期刊文摘,2005,11(18):194-199.
3赵永胜,林宇震,王建臣,刘伟.支板/凹腔超声速燃烧室总压损失特性研究[J].推进技术,2016,37(2):339-345. 被引量：3
4姚照辉,吴宝元,梁俊龙.冲压发动机燃烧引起激波运动过程一维分析[J].火箭推进,2013,39(2):52-58. 被引量：1
5刘伟,林宇震,张岩,王建臣.正十二烷和甲基环己烷在超燃燃烧室中的点火和稳焰特性研究[J].推进技术,2015,36(2):261-268. 被引量：2
6张勃,吉洪湖,张晶,程明,王艳丽.燃烧室多斜孔壁传热特性一维数值分析[J].南京航空航天大学学报,2013,45(5):647-651. 被引量：2
7程晓丽,苗文博,周伟江.真实气体效应对高超声速轨道器气动特性的影响[J].宇航学报,2007,28(2):259-264. 被引量：14
8周传辉,方丁酉.燃烧室─喷管流场数值解[J].国防科技大学学报,1994,16(1):108-114. 被引量：1
9何飞,赫晓东,赵淑媛.纤维隔热毡有效热导率测试方法研究[J].宇航材料工艺,2007,37(5):67-70. 被引量：3
10苏新明,刘畅,文晶,王晶,朱熙,李烨,刘守文.基于一维稳态导热模型的多层组件常压隔热性能试验研究[J].航天器环境工程,2016,33(6):634-638. 被引量：3

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2005年第2期

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