航天推进技术研究院主办
[1]张蒙正,李 斌,王 君,等.关于RBCC动力系统的思考[J].火箭推进,2013,39(01):1-7.
ZHANG Meng-zheng,LI Bin,WANG Jun,et al.Thinking about RBCC propulsion system[J].Journal of Rocket Propulsion,2013,39(01):1-7.
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ZHANG Meng-zheng,LI Bin,WANG Jun,et al.Thinking about RBCC propulsion system[J].Journal of Rocket Propulsion,2013,39(01):1-7.
关于RBCC动力系统的思考
《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]
卷:
39
期数:
2013年01期
页码:
1-7
栏目:
专论与综述
出版日期:
2013-02-28
- Title:
- Thinking about RBCC propulsion system
- 分类号:
- V434-34
- 文献标志码:
- A
- 摘要:
- 回顾了RBCC动力系统研发的历程和趋势,分析了RBCC动力系统的速度、高度等基本特性。建议RBCC动力系统研发应致力于火箭发动机与冲压发动机功能的拓展与完善,注重综合性能的提高;加强与飞行器一体化设计,考虑进气道、燃烧室、尾喷管及燃油供应系统的共用;依据具体飞行器方案开展关键技术攻关和基础技术研究;首先开展临近空间高速、机动飞行器动力系统研发,针对两级入轨动力系统之二级开展关键技术攻关。
- Abstract:
- The development course and trend for the rocket based combined cycle (RBCC) propulsion system are reviewed. The velocity, altitude and other basic characteristics of the RBCC propulsion system are analyzed. A suggestion that the development of the RBCC propulsion system should be devoted to improving the function and performance of LRE and ramjet is proposed. It is found that the integrated design of the RBCC propulsion system and aircraft should be enhanced; the sharing of air intake duct, combustor, tailpipe nozzle and fuel supply system might be considered in the integrated design; the study of key and basic technologies of RBCC propulsion system must be carried out according to the specific aircraft project. The development of high-speed aircraft propulsion system running in the near-earth space should be conducted first to tackle the key technology for the second stage of two-stage-to-orbit propulsion systems.
参考文献/References:
[1]EHRLICH Carl F. Early Studies of RBCC applications and lessons learned for today, AIAA 2000-3105[R]. USA: A- IAA, 2000.
[2]HYDE E H. Marquardt's Mach 4.5 supercharged ejector ramjet high performance aircraft engine project, AIAA 2000-3109[R]. USA: AIAA, 2000.
[3]FOELSCHE R O. Experiments on a RBCC ejector scram- jet with integrated, staged secondary-duel injection, AIAA 99-2242[R]. USA: AIAA, 1999.
[4]SIEBENHAAR A , BUJMAN M J. The strutjet engine:the overlooked option for space launch, AIAA 95-3124[R]. USA: AIAA, 1995.
[5]KETCHUM Andrew. Summary of Rocketdyne engine A5 rocket based combined cycle testing[R]. Virgnia, US: NTIS, 1998.
[6] QUINN Jason Eugene. ISTAR: project status and ground test engine design, AIAA 2003-5235[R]. USA: AIAA, 2003.
[7]KRIVANEK Thomas M, ROCHE Joseph M , RIEHL John P. Affordable flight demonstration of the GTX air-breath- ing SSTO vehicle concept, NASA/TM-2003-212315.
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[9]BULMAN Melvin J. Combined cycle propulsion: aerojet innovations for practical hypersonic vehicles. AIAA 2011-2397[R]. USA: AIAA, 2011.
[10]张蒙正, 邹宇. 美国典型高超飞行器项目研发及启示[J]. 火箭推进, 2012, 38(2): 1-8.
[11]Ajay P Kothari, John W Livingston. Rocket based com- bined cycle hypersonic vehicle design for orbital access, AIAA 2011-2338[R]. USA: AIAA, 2011.
[12]HIRAIWA Testsuo. Recent progress in scramjet/com- bined cycle engines at JAXA, Kakuda Space Propulsion Center, AIAA 2006-555[R]. USA: AIAA, 2006.
[13] Kouichiro Tani, Muneo Izumikawa. Ram and ejector-jet mode experiments of the combined cycle engine in Mach 4 Flight Conditions, AIAA 2008-103[R]. USA: AIAA, 2008.
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备注/Memo
收稿日期:2012-11-10;修回日期:2012-12-15 作者简介:张蒙正(1964—),男,研究员,研究领域为液体火箭发动机
更新日期/Last Update:
1900-01-01