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电推进技术在全电推进卫星平台的应用研究 被引量:4

THE RESEARCH OF ELECTRIC PROPULSION'S APPLICATION OF ELECTRIC PROPULSION SATELLITE PLATFORM
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摘要 全电推进卫星平台能够大幅度降低卫星平台的推进剂需求量,并带来包括减轻卫星发射重量、提高卫星有效载荷能力、延长卫星服役寿命等方面的经济效益.通过调研全电推进卫星平台的进展情况,梳理了全电推进卫星平台对电推进的任务需求,设计了全电推进系统方案及应用模式,经过分析计算,卫星发射重量在2 000 ~3 000 kg 之间,在半年之内完成卫星轨道转移,需要单台推力器推力达到200~300 mN,选择适当的轨道策略,全电推进系统是可以满足任务需求的. All electric propulsion satellite platform can reduce the demand for propellant,it will Bring economic benefitson reducing the satellite launch weight,improving the ability of the satellite payload,prolonging the service life ofsatellite. This paper studied the progress of all electric propulsion satellite platform,combed the requirements of electricpropulsion’ s mission for all electric propulsion satellite platform,designed the scheme of electric propulsion system andapplication mode. By analyzing and calculating,if the satellite launch weight between 2 000~3 000 kg,and completed orbittransfer within half a year,the single thruster need output thrust between 200~300 mN. So selected the appropriatestrategy,all electric propulsion system can meet the demand of the mission.
作者 孙小菁 张天平 王小永 王亮 刘明正
机构地区 兰州空间技术物理研究所真空技术与物理重点实验室
出处 《真空与低温》 2015年第1期6-10,共5页 Vacuum and Cryogenics
关键词 电推进技术 全电推进卫星平台 应用 electric propulsion technology all electric propulsion satellite platform application
分类号 V439 [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7

  • 1张天平,张雪儿.空间电推进技术及应用新进展[J].真空与低温,2013,19(4):187-194. 被引量:33
  • 2黄良甫.电推进系统发展概况与趋势[J].真空与低温,2005,11(1):1-8. 被引量:11
  • 3702SP Spacecraft. Boeing Defense space & Security[EB/OL].http//:www.boeing.com,2014.
  • 4Gonzalez J A. European Space Agency Activities in ElectricPropulsion.Presented at the 33rd International[C]// ElectricPropulsionConference,2013.
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  • 6Rathsman P. Electre-The Implementation of all-electric pro.pulsion on a geostationary satellite[C]//64th International As.tronauticalCongress,2013.
  • 7RezuginaE,DemaireA.AllEPPlatform:MissionDesignChal.lenges andSubsystem Design Opportunities[C]// 33rd Interna.tionalElectricPropulsionConference,2013.

二级参考文献58

  • 1张天平.国外离子和霍尔电推进技术最新进展[J].真空与低温,2006,12(4):187-193. 被引量:60
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  • 6BROMAGHIM D R. An overview of the on -orbit resulis from the electric propulsion space experiment (ESEX) [R ]. IEPC-99-182,1999.
  • 7DUNNING J W, BENSON S. NASA' s electric propulsion program [ R]. AIAA2002-3557, 2002.
  • 8DUNNING J W, HAMLEY J A, JANKOVSKY R S. An overview of electric propulsion activities at NASA[R]. AIAA2004-3328,2004.
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  • 10TAHARA H, NISHIDA M. Overview of electric propulsion activity in Japan[R]. AIAA99-2159, 1999.

共引文献41

同被引文献35

引证文献4

二级引证文献41

真空与低温
2015年 第1期

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