新型空间站氢/氧变轨发动机研究(英文) 被引量：1

Investigation of Novel Hydrogen/Oxygen Thruster for Orbital Maneuver in Space Station

下载PDF

导出

摘要 Hydrogen and oxygen orbital maneuver thruster, based on gas-dynamic resonance ignition, is a new liquid rocket propulsion technology, and is especially applicable to space station. By means of theoretic thermodynamic calculation of the hydrogen and oxygen thruster, combined with the experimental exploration on the coaxial hydrogen and oxygen resonance ignition, a scheme of the thruster head configuration is designed as the combination of a coaxial hydrogen/oxygen resonance igniter and an oxygen augmentation injector. Through ignition tests on coaxial hydrogen/oxygen resonance igniter characterization, the thruster head ignition tests have been conducted successfully in sequence of resonance ignition and oxygen augmentation combustion. Finally, the thruster ground tests are successfully carried out in forms of single impulse, successive double impulses and 3.0 seconds continuous running, which verify the reliability and feasibility of the thruster. The response time of the thruster starting is restricted within 0.2 second. Hydrogen and oxygen orbital maneuver thruster, based on gas-dynamic resonance ignition, is a new liquid rocket propulsion technology, and is especially applicable to space station. By means of theoretic thermodynamic calculation of the hydrogen and oxygen thruster, combined with the experimental exploration on the coaxial hydrogen and oxygen resonance ignition, a scheme of the thruster head configuration is designed as the combination of a coaxial hydrogen/oxygen resonance igniter and an oxygen augmentation injector. Through ignition tests on coaxial hydrogen/oxygen resonance igniter characterization, the thruster head ignition tests have been conducted successfully in sequence of resonance ignition and oxygen augmentation combustion. Finally, the thruster ground tests are successfully carried out in forms of single impulse, successive double impulses and 3.0 seconds continuous running, which verify the reliability and feasibility of the thruster. The response time of the thruster starting is restricted within 0.2 second.

作者宋雅娜俞南嘉张国舟马彬周文禄黄翔

机构地区 School of Astronautics Beijing Aerospace Propulsion Institute

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2005年第4期289-294,共6页 中国航空学报（英文版）

基金 863NationalProjectFunds(No.863-704)

关键词 liquid rocket engine THRUSTER IGNITION resonance orbital maneuver liquid rocket engine thruster ignition resonance orbital maneuver

分类号 V434 [航空宇航科学与技术—航空宇航推进理论与工程]

引文网络
相关文献

参考文献5

1Robinson P J, Rosenthal S E.A proven 25-lbF H2/O2 thruster for space station auxiliary propulsion[R]. AIAA-86-1560, 1986.
2张国舟,童晓艳,梁国柱,马彬,程显辰.液体火箭发动机气动谐振点火技术的研究[J].宇航学报,2001,22(4):81-84. 被引量：8
3童晓艳,张国舟,马彬,梁国柱,宋雅娜.多推力室的气动谐振点火器研究[J].推进技术,2002,23(5):402-405. 被引量：8
4俞南嘉,张国舟,宋雅娜,马彬,童晓艳.同轴氢氧谐振点火器试验研究[J].推进技术,2004,25(3):267-270. 被引量：5
5宋雅娜,张国舟,周文禄,黄翔.新颖机动变轨化学火箭发动机头部研究[J].北京航空航天大学学报,2005,31(8):888-892. 被引量：2

二级参考文献13

1Robinson P J, Rosenthal S E. A proven 25-lbF H2/O2 thruster for space station auxiliary propulsion[R]. AIAA-86-1560, 1986.
2Phillips B R, Pavli A J. Resonance tube ignition of hydrogen-oxygen mixtures[R]. NASA TN D-6354, 1971.
3Rocketdyne Engineering. Advanced ignition systems final report [R]. N71-35152,1972.
4Phillips B R,Pavli A J. Resonance tube ignition of hydrogenoxygen mixtures [ R] . NASA TN D-6354.
5Butorin E A. Experimental study of gas-dynamic igniter [J].Chemical and Petroleum Engineering, 1989,24 (7,8).
6Immich H, Caporicci M. Status of the FESTIP rocket propulsion technology programme [ R]. AIAA 97-3311.
7Niwa M, Kessaev K, Santana J A, et al. Development of a resonance igniter for GO2/Kerosene ignition [R]. AIAA 2000-3302,2000.
8梁国柱,张国舟,程显辰,马彬,张振鹏.液体火箭发动机气动谐振点火初步研究[J].推进技术,1999,20(4):13-16. 被引量：8
9童晓艳,马彬,张国舟.塞式喷管发动机多管点火方案的研究[J].宇航学报,2001,22(4):62-66. 被引量：4
10张国舟,童晓艳,梁国柱,马彬,程显辰.液体火箭发动机气动谐振点火技术的研究[J].宇航学报,2001,22(4):81-84. 被引量：8

共引文献14

1杜善义,张晓晶,陈吉安,武湛君,张博明.光纤氢传感技术的研究现状及其应用前景[J].宇航学报,2004,25(4):466-472. 被引量：8
2俞南嘉,张国舟,宋雅娜.气动谐振加热基础试验[J].航空动力学报,2005,20(2):323-327. 被引量：2
3郭红杰,梁国柱,马彬,张振鹏.液体火箭发动机爆震波点火技术初步研究[J].北京航空航天大学学报,2005,31(4):375-380. 被引量：6
4宋雅娜,俞南嘉,马彬,周文禄,黄翔.基于气动谐振点火器的氢氧变轨火箭发动机地面点火试验[J].航空动力学报,2005,20(3):523-528. 被引量：1
5俞南嘉,张国舟,宋雅娜,程圣清.氢氧谐振点火器多室同步点火研究[J].北京航空航天大学学报,2005,31(6):627-631.
6宋雅娜,张国舟,周文禄,黄翔.新颖机动变轨化学火箭发动机头部研究[J].北京航空航天大学学报,2005,31(8):888-892. 被引量：2
7俞南嘉,蔡国飙,张国舟,金平,汪小卫,李茂.富氧预燃室初步试验研究[J].宇航学报,2006,27(5):834-838. 被引量：6
8俞南嘉,蔡国飙,张国舟.环形喷嘴气动谐振加热性能[J].北京航空航天大学学报,2010,36(1):82-86.
9俞南嘉,张国舟,马彬,蔡国飙.应用气动谐振点火的氢氧小发动机试验[J].推进技术,2010,31(2):134-138. 被引量：2
10高玉闪,李茂,金平,蔡国飙.气氧旋流强度对气-气喷嘴燃烧特性的影响[J].推进技术,2011,32(2):197-201. 被引量：3

同被引文献5

1宋雅娜,张国舟,周文禄,黄翔.新颖机动变轨化学火箭发动机头部研究[J].北京航空航天大学学报,2005,31(8):888-892. 被引量：2
2Robinson P J, Rosenthal S E. A proven 25-1bF H2/O2 thruster for space station auxiliary propulsion [ R]. AIAA 86-1560N-/1-35152, 1972.
3Phillips B R, Pavli A J. Resonance tube ignition of hydrogen-oxygen mixtures [R]. NASA TN D-6354, 1971.
4朱森元.氢氧火箭发动机及其低温技术[M].北京：国防工业出版社,1995..
5俞南嘉,张国舟,宋雅娜,马彬,童晓艳.同轴氢氧谐振点火器试验研究[J].推进技术,2004,25(3):267-270. 被引量：5

引证文献1

1俞南嘉,张国舟,马彬,蔡国飙.应用气动谐振点火的氢氧小发动机试验[J].推进技术,2010,31(2):134-138. 被引量：2

二级引证文献2

1刘万龙,王晓丽,梁国柱.双喷管差动式小推力测量装置的设计与分析[J].推进技术,2013,34(3):397-404.
2吴靖,张国舟,蔡国飙.真空应用电火花点火的氢氧发动机设计与试验[J].航空动力学报,2014,29(2):398-404. 被引量：3

1吕奇伟.气氧/煤油谐振点火器研究[J].火箭推进,2001,27(4):54-57. 被引量：1
2小号.美国X-37B在太空飞行7个月后返回地面[J].国际太空,2010(12):46-46.
3宋雅娜,俞南嘉,马彬,周文禄,黄翔.基于气动谐振点火器的氢氧变轨火箭发动机地面点火试验[J].航空动力学报,2005,20(3):523-528. 被引量：1
4宋雅娜,张国舟,周文禄,黄翔.新颖机动变轨化学火箭发动机头部研究[J].北京航空航天大学学报,2005,31(8):888-892. 被引量：2
5刘江平.从X-37B看美国太空武器的发展[J].环球飞行,2011(2):44-49.
6通信与跟踪：空间站应用的关键[J].无线电通信参考,1989(4):11-14.
7王之任,孙纪国.喷嘴动态特性试验台与发动机谐振点火器[J].航天出国考察技术报告,1997(1):46-50.
8张文昌,孙亚力,徐辉.空天作战离我们有多远?[J].党政论坛,2013(2):52-52.
9张国舟,童晓艳,梁国柱,马彬,程显辰.液体火箭发动机气动谐振点火技术的研究[J].宇航学报,2001,22(4):81-84. 被引量：8
10童晓艳,张国舟,马彬,梁国柱,宋雅娜.多推力室的气动谐振点火器研究[J].推进技术,2002,23(5):402-405. 被引量：8

Chinese Journal of Aeronautics

2005年第4期

浏览历史

内容加载中请稍等...