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电弧加热设备的类型及趋势(英文) 被引量:5

Types and Trend of Arc Heater Facility
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摘要 介绍了现有的应用于航天领域的电弧加热设备类型,包括叠片、管弧或渦稳、磁稳、感应以及磁等离子动力加热器。描述了主要的设备,同时对电弧加热设备的发展趋势进行了介绍。 The types of operational aerospace arc heater facility is performed.These facility include multi-segment,huels or vortex stabilized,magnetically-stabilized,induction-coupled and magnetplasm dynamic heaters.Themain facility is described.The trend of arc heater facility is also introduced in this paper.
作者 陈连忠 张友华
机构地区 中国航天空气动力技术研究院
出处 《宇航材料工艺》 CAS CSCD 北大核心 2011年第2期34-42,共9页 Aerospace Materials & Technology
关键词 电弧加热 设备类型 趋势 Arc heater Facility types Trend
分类号 U415.525 [交通运输工程—道路与铁道工程]
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参考文献22

  • 1Amundson M H, Smith D M. Ground test and evalua- tion methodologies and techniques for the development of endoat- mospheric interceptors[J]. AIAA Paper 93-2679, 1993.
  • 2Smith R K, Wagner D A. A survey of current and fu- ture plasma arc-heated test facilities for aerospace and commercial applications[ J]. AIAA Paper 98-0146, 1998.
  • 3Mark P L. Arc-jet semi-elliptic nozzle simulations and validation in support of X-33 TPS testing[J]. AIAA Paper 98- 0864, 1998.
  • 4Jay H G, David A S, Charles A S. High enthalpy test methodologies for thermal protection systems development at NASA Ames research center[ J]. AIAA Paper,2005-3326.
  • 5Ernest F F. NASA AMES arc jets and range capabili- ties for planetary entry[ J]. NASA 2007001463, 2007.
  • 6Boyd Jack. NASA Ames research center overview[ J]. NASA 2007008268, 2007.
  • 7Rochelle W C, Battley H H. Orbiter TPS development and certification testing at the NASA/JSC 10 MW atmospheric re- entry materials and structures evaluation facility [ J ]. AIAA Paper 83-0147, 1983.
  • 8Max E L, Jeremiah J M. Boundary layer transition pro-tuberance tests at NASA JSC arc-jet facility [ J ]. AIAA Paper AIAA Paper 2010-1578, 2010.
  • 9Thomas S R, Voland R T, Guy R W. Test flow calibra- tion study of the Langley arc-heated scramjet test facility [ J ]. AIAA Paper 87-2165, 1987.
  • 10Guy R W, Rogers R C, Puster R L, et al. The NASA Langley scramjet test complex[J]. AIAA Paper 96-3243, 1996.

同被引文献47

  • 1刘初平,隆永胜,白菡尘,张绍武,陈德江.超燃冲压发动机电弧加热器试验流场调试[J].实验流体力学,2005,19(4):42-45. 被引量:5
  • 2杨鸿,陈伟芳,柳森.电弧湍流平板烧蚀矩形喷管研制及应用[J].实验流体力学,2006,20(1):27-30. 被引量:4
  • 3克耐里托诺夫,泽维金茨耶夫,契卡申科,波罗德斯基,马祖尔,互西耐夫,莫尔拉尔特,科都拉,鲍拉特.航天飞行器在ITAM的AT303高超声速风洞中的空气动力实验研究(英文)[J].实验流体力学,2006,20(4):10-19. 被引量:1
  • 4Curran E T. Scramjet engines: the first forty years[J]. Journal of Propulsion and Power, 2001, 17(6): 1138-1148.
  • 5Karen C F, Kenneth R E. A finite rate chemical analysis of nitric oxide flow contamination effects on scramjet performance[R]. NASA/TP- 2003-212159, 2003.
  • 6Ibertson C W. Alleviation of facility/engine interactions in an open-jet seramjet test facility[R]. AIAA-2001-3677, 2001.
  • 7Powell O A, Edwards J T, Norris R B, et al. Development of hydrocarbon-fueled scramjet engines: the hypersonic technology (HyTeeh) program[J]. Journal of Propulsion and Power, 2001, 17(6): 1170-1176.
  • 8Hank J M, Murphy J S, Mutzman R C. The X-51A seramjet engine flight demonstration program[R]. AIAA-2008-2540, 2008.
  • 9Hass N, Cabell K, Storeh A. HIFiRE Direct-connect Rig (HDCR) phase I scramjet test results from the NASA langley arc-heated scramjet test facility [R]. AIAA-2011-2248, 2011.
  • 10Mathur T, Dtreby G D, Gruber M R, et al. Supersonic combustion experiments with a cavity-based fuel injector [R]. AIAA-1999-2102, 1999.

引证文献5

二级引证文献6

宇航材料工艺
2011年 第2期

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