PDF下载 分享
[1]赵 婷,陈夏超,杨成虎,等.面向高轨卫星的液体轨控发动机研制进展[J].火箭推进,2018,44(01):1-7.
 ZHAO Ting,CHEN Xiachao,YANG Chenghu,et al.Developing progress of liquid bipropellant orbit control engine for high orbit satellite[J].Journal of Rocket Propulsion,2018,44(01):1-7.
点击复制

面向高轨卫星的液体轨控发动机研制进展

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 44 期数: 2018年01期 页码: 1-7 栏目: 专论与综述 出版日期: 2018-02-28
Title:
Developing progress of liquid bipropellant orbit control engine for high orbit satellite
文章编号:
1672-9374(2018)01-0001-07
作者:
赵 婷陈夏超杨成虎姚 锋刘昌国
上海空间推进研究所,上海 201112
Author(s):
ZHAO Ting CHEN XiachaoYANG Chenghu YAO Feng LIU Changguo
Shanghai Institute of Space Propulsion, Shanghai 201112, China
关键词:
高轨卫星 轨控发动机 比冲性能 研究进展
Keywords:
high orbit satellite orbit control engine specific impulse performance research progress
分类号:
V439.7-34
文献标志码:
A
摘要:
综述了面向高轨卫星的液体轨控发动机发展及现状,简要介绍了490 N轨控发动机从第一代、第二代到第三代发展历程,着重阐述了高性能750 N轨控发动机的研制情况,并介绍了其技术方案及试验结果,总结了国内星用轨控发动机的研制经验。我国当前技术状态下,采用铌合金材料燃烧室可实现的750 N轨控发动机真空比冲性能可达到321 s以上,同时工作寿命满足25 000 s的工程需要,与国外高性能液体轨控发动机性能比对可见,我国面向高轨卫星用750 N发动机达到国际先进水平。
Abstract:
The development and status quo of liquid orbit control engine for high orbit satellite is summarized.The development course(the first generation, the second generation to the third generation)of the 490 N orbit control engine is introduced briefly in this paper.The development status, technical solution and test result of 750 N high-performance orbit control engine are described.Development experience of orbit control engine for satellite in China is summarized.According to current technical state of China, the specific impulse of the 750 N orbit control engine with niobium alloy combustor can reach more than 321 s, and its working life can meet the requirements of 25 000 s.Compared with the high-performance liquid orbit control engines in foreign countries, the 750 N engine used for high orbit satellite has reached the international advanced level.

参考文献/References:

[1] STECHMAN R C. Development history of the apollo reaction control system rocket engine: AIAA89-2388 [R]. USA: AIAA, 1989.
[2] SCHULTE G. High performance 400 N MMH/NTO bipropellant engine for apogee boost maneuvers: AIAA99-2466 [R]. USA: AIAA, 1999.[3] WU P K. Qualification testing of 2nd generation high performance apogee thruster: AIAA 2001-3253 [R]. USA: AIAA, 2001.
[4] HENDERSON S, STECHMAN C. Performance results for the advanced materials bipropellant rocket(AMBR)engine: AIAA 2010-6883 [R]. USA: AIAA, 2010.
[5] 刘昌国, 张中光, 韩宏印, 汪允武, 孙得川. 高比冲双组元液体远地点火箭发动机研究. 上海航天,2003(4):30-33.
[6] 周红玲, 姜文龙, 刘昌国.国内外卫星用液体远地点发动机发展综述[J].火箭推进,2011,37(5):1-8.
ZHOU Hongling, JIANG Wenlong, LIU Changguo. Development of liquid apogee engine for satellite at home and abroad [J]. Journal of rocket propulsion, 2011, 37(5): 1-8.
[7] 姜文龙,杨成虎,林庆国.高性能卫星用490 N轨控发动机研究进展[J].火箭推进,2011,37(6):9-13.
JIANG Wenlong, YANG Chenghu, LIN Qingguo. Development of high performance 490 N apogee engine for satellites [J]. Journal of rocket propulsion, 2011,37(6): 9-13.
[8] 杨成虎,林庆国,刘昌国.高性能液体远地点发动机技术发展[J].火箭推进,2013,39(4):1-7.
YANG Chenghu, LIN QINGguo, LIU Changguo. Technology development of high-performance liquid apogee engine [J]. Journal of rocket propulsion, 2013, 39(4): 1-7.

相似文献/References:

[1]张凯宏,江 欣,肖明杰,等.基于流固耦合理论的关机水击特性[J].火箭推进,2019,45(02):36.
 ZHANG Kaihong,JIANG Xin,XIAO Mingjie,et al.Characteristics of water hammer in shutting based on FSI[J].Journal of Rocket Propulsion,2019,45(01):36.
[2]陈明亮,刘昌国,徐 辉,等.远征三号上面级轨控发动机研制及在轨验证[J].火箭推进,2020,46(03):11.
 Hui,WU Erlong.Development and in-orbit verification of orbit-control engine in YZ-3 upper stage[J].Journal of Rocket Propulsion,2020,46(01):11.

备注/Memo

收稿日期:2017-09-13; 修回日期:2017-11-30 基金项目: 总装十三五预研课题(30508040301) 作者简介: 赵 婷(1984—),女,高级工程师,研究领域为液体火箭发动机设计

更新日期/Last Update: 1900-01-01