航天推进技术研究院主办
[1]刘晓伟,李永洲.侧置火箭对发动机尾喷管的影响研究[J].火箭推进,2015,41(04):43-47.
LIU Xiaowei,LI Yongzhou.Impact of sidewall rocket on engine nozzle[J].Journal of Rocket Propulsion,2015,41(04):43-47.
点击复制
LIU Xiaowei,LI Yongzhou.Impact of sidewall rocket on engine nozzle[J].Journal of Rocket Propulsion,2015,41(04):43-47.
侧置火箭对发动机尾喷管的影响研究
《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]
卷:
41
期数:
2015年04期
页码:
43-47
栏目:
研究与设计
出版日期:
2015-09-30
- Title:
- Impact of sidewall rocket on engine nozzle
- 分类号:
- V434-34
- 文献标志码:
- A
- 摘要:
- 某些应用条件下,飞行器需要RBCC发动机提供更大的推力,受飞行器/发动机一体化气动外形约束,冲压流道推力很难大幅提高,不得不提高火箭发动机推力。当火箭推力需求过大时,传统的在隔离段或燃烧室流道内布置火箭发动机的方法受限于狭小的空间约束,火箭发动机设计难度增加,性能降低。为此,提出了一种将火箭发动机布置于冲压发动机尾喷管侧壁的方法,并开展了火箭状态对尾喷管性能影响的初步研究。结果表明:这种布置方式充分利用尾喷管较大的几何空间,火箭射流可在尾喷管内继续膨胀,不仅不会削弱尾喷管的推力性能,甚至可以产生额外的推力增量,且其升力会大幅增加。此外,该方式还可实现火箭发动机大推力和高比冲的较好匹配,其应用也可拓展至RBCC发动机外的相似领域。
- Abstract:
- Sometimes spacecraft need RBCC (rocket based combined cycle) engine to provide greater thrust. For the restriction of the aircraft/engine integrative aerodynamic shape, it is difficult to increase ramjet thrust by a large margin, so the rocket thrust has to be increased. When much more thrust is need, if the rocket engine is packaged within the isolation section or combustor flow passage, the rocket engine design will be more difficult because of the narrow geometric space, and the rocket performance will be reduced. Therefore, a method to place the rocket engine on the sidewall of ramjet engine nozzle is proposed. The influence of rocket status on nozzle performance is study in this paper. The result shows that this arrangement make full use of the nozzle geometric space, the rocket jet flow can continue to expand in the nozzle, by which not only the nozzle thrust will not be weaken, but also the nozzle can attain added thrust increment and its uplift power can be greatly increased. The nozzle sidewall arrangement mode can realize a excellent matching of high thrust and
参考文献/References:
[1]SIEBENHAAR A, BULMAN M J, BONNAR D K. The role of the strutjet engine in new global and space markets, IAF- 98-S.5.04[R]. Paris: IAF, 1998.
[2]TREFNY C J. An air-breathing launch vehicle concept for single-stage-to-orbit, AIAA 1999-2730[R]. Reston: AIAA, 1999.
[3]HANK J M. Air force research laboratory hypersonic propulsion research programs, AIAA 2007-5371[R]. Reston: AIAA, 2007.
[4]KOTHARI A P, LIVINGSTON J W, TARPLEY C, et al. A reusable, rocket and airbreathing combined cycle hypersonic vehicle design for access-to-space, AIAA 2010- 8905[R]. Reston: AIAA, 2010.
[5]KANDA T, TOMIOKA S, UEDA S, et al. Design of sub-scale rocket-ramjet combined cycle engine model, IAC-05-C4.5.03[R]. Paris: IAF, 2005.
[6]MACK G, BEAUDRY C, KETCHUM A. Integrated system test of an airbreathing rocket(ISTAR), AAAF 2002-258[R]. Versailles: AAAF, 2002.
[7]王玉峰, 吴宝元, 王东东. 变比热对超燃冲压发动机尾喷管设计的影响研究[J]. 火箭推进, 2010, 36(2): 43-47.
WANG Yufeng, WU Baoyuan, WANG Dongdong. Scramjit engine nozzle design with variable specific heat[J]. Journal of Rocket Propulsion, 2010, 36(2): 43-47.
[8]黄伟, 罗世彬, 王振国. 超燃冲压发动机参数灵敏度分析[J]. 推进技术, 2009, 30(6): 691-695.
[9]葛建辉, 徐惊雷, 庞丽娜, 等. Scramjet尾喷管几何调节方案的计算和试验研究[J]. 推进技术, 2013, 34(9): 1158- 1164.
相似文献/References:
[1]刘晓伟,刘 昊,张蒙正.RBCC火箭对直扩通道抗反压能力的影响研究[J].火箭推进,2015,41(06):7.
LIU Xiaowei,LIU Hao,ZHANG Mengzheng.Influence of RBCC rocket on resisting backpressure
ability of straight-expanded flowpath[J].Journal of Rocket Propulsion,2015,41(04):7.
[2]雷向东,余协正,杨京军,等.氧气/煤油点火装置高空点火试验研究[J].火箭推进,2014,40(06):35.
LEI Xiang-dong,YU Xie-zheng,YANG Jing-jun,et al.High-altitude ignition tests of oxygen/kerosene ignition system[J].Journal of Rocket Propulsion,2014,40(04):35.
[3]刘 华,雍雪君,梁俊龙,等.超声速进气道及冲压发动机动态特性分析[J].火箭推进,2012,38(03):17.
LIU Hua,YONG Xue-jun,LIANG Jun-long,et al.Analysis of supersonic air inlet and ramjet dynamic characteristics[J].Journal of Rocket Propulsion,2012,38(04):17.
[4]侯早,王福民,旷武岳.冲压发动机超声速进气道研究进展[J].火箭推进,2008,34(05):31.
Hou Zao,Wang Fumin,Kuang Wuyue.Development of supersonic scramjet inlet[J].Journal of Rocket Propulsion,2008,34(04):31.
[5]李小平,葛李虎,栾希亭,等.加热器在冲压发动机试验技术中的应用研究[J].火箭推进,2007,33(03):14.
Li Xiaoping,Ge Lihu,Luan Xiting.Applications of gas generator in ramjet direct-connect test facility[J].Journal of Rocket Propulsion,2007,33(04):14.
[6]柳长安,吴宝元,王玉峰,等.冲压发动机转级流场数值仿真研究[J].火箭推进,2007,33(05):18.
Liu Changan,Wu Baoyuan,Wang Yufeng.Numerical simulation of the ramjet engine separation flow[J].Journal of Rocket Propulsion,2007,33(04):18.
[7]赵春宇,李斌,鞠玉涛,等.碳粉燃料在火箭冲压发动机补燃室内燃烧特性的分析[J].火箭推进,2007,33(05):37.
Zhao Chunyu,Li Bin,Ju Yutao.Analysis of the powdered carbon combustibility in secondary combustion chamber for rocket ramjet engine[J].Journal of Rocket Propulsion,2007,33(04):37.
[8]任加万,谭永华.燃烧室缝槽气膜冷却方案研究[J].火箭推进,2007,33(06):28.
Ren Jiawan,Tan Yonghua.Investigation on the structure scheme of slot air film cooling combustion chamber[J].Journal of Rocket Propulsion,2007,33(04):28.
[9]金莉,谭永华.火焰稳定器综述[J].火箭推进,2006,32(01):30.
Jin Li,Tan Yonghua.Study on flameholders[J].Journal of Rocket Propulsion,2006,32(04):30.
[10]任加万,谭永华.冲压发动机燃烧室热防护技术[J].火箭推进,2006,32(04):38.
Ren Jiawan,Tan Yonghua.Thermal protection techniques of ramjet combustor[J].Journal of Rocket Propulsion,2006,32(04):38.
备注/Memo
收稿日期:2015-04-26;修回日期:2015-06-25 作者简介::刘晓伟(1982—),男,博士,工程师,研究领域为吸气式组合推进
更新日期/Last Update:
1900-01-01