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板式贮箱内部流动的定常和非定常数值模拟 被引量:2

The Steady and Unsteady Numerical Simulations of the Flow in Vane Type Surface Tension Tank
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摘要 为了研究微重力环境下板式表面张力贮箱的内部流动规律,对板式贮箱导流板的驱动机理进行了分析,得到了微重力环境下板式贮箱内部定常和非定常流动的基本方程。应用四阶龙格-库塔法对定常流动方程进行求解,得到定常流动时导流板上液带的分布规律;应用MacCormack数值离散方法,对非定常流动方程进行求解,得到了不同时刻导流板上液带的分布规律及液带恢复稳定所需的时间。计算结果为板式贮箱的设计提供了数值依据,奠定了板式贮箱的设计基础。 In order to study the flow conditions in vane type surface tension tank under microgravity environment,the driving principle of the vane was analyzed.The steady and unsteady government equations for the flow along the vane were derived.The distributions of the fillet on the vane were gotten by integrating the steady equation using the fourth order Runge-Kutta method.Based on dispersing the unsteady equation by using MacCormack type scheme,the distributions of the fillet with the time and the whole time for ...
作者 李永 潘海林 魏延明 赵春章
机构地区 北京控制工程研究所推进中心
出处 《宇航学报》 EI CAS CSCD 北大核心 2007年第3期623-627,共5页 Journal of Astronautics
关键词 表面张力贮箱 板式 推进剂管理装置 微重力 数值模拟 Vane Surface tension tank Propellant management device Microgravity Numerical simulation
分类号 V411 [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6

  • 1[1]Tam W H,Lay W D,Hersh M S,at all.Design,Development,Qualification,and Manufacture of the HS 601 Propellant Tank,AIAA96~2748
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同被引文献23

  • 1庄保堂,李永,潘海林,胡齐,李泽.微重力环境下导流叶片流体传输速度的试验研究[J].空间控制技术与应用,2012,38(6):1-5. 被引量:5
  • 2刘赵淼,赵婷婷,申峰.重力和接触角对表面张力贮箱内液体流动的影响[J].力学学报,2015,47(3):430-440. 被引量:6
  • 3薛国宇,陈志坚,王德忠.低温表面张力贮箱研究[J].火箭推进,2005,31(3):26-29. 被引量:7
  • 4李永,潘海林,魏延明.第二代表面张力贮箱的研究与应用进展[J].宇航学报,2007,28(2):503-507. 被引量:15
  • 5David J C, Timothy A M. Vented tank resupply experi- ment: flight test results[ J]. Journal of Spacecraft and Rockets, 2006, 43(5) : 1124-1130.
  • 6Bicknell B A, Czysz P M. Low-g venting tests to support on-orbit fluid resupply systems [ C ] The 26'h AIAA/ ASME/SAE/ASEE Joint Propulsion Conference, Orlan- do, FL, July 16-18, 1990.
  • 7Dominick S M, Tegart J R, Driscoll S L, et al. Fluid acquisition and resupply experiments on space shuttle flights STS-53 and STS-57 [ R ]. Alabama, USA: Mar- shall Space Flight Center, 2011.
  • 8Dipprey N F, Rotenberger S J. Orbital express propel- lant resupply servicing [ C ] The 39'8 AIAA/ASME/ SAE/ASEE Joint Propulsion Conference and Exhibit, Huntsville, Alabama, July 20-23, 2003.
  • 9Cady E C. Study of thermodynamic vent and screen baf- fle integration for orbital storage and transfer of liquid hydrogen [ R ]. Huntington Beach, California: NASA Lewis Research Center, August 1973.
  • 10McQuillen J B, Chao D F, Hall N R, et al. CFD simu- lations of flow in capillary flow liquid acquisition device channel[ J]. World Academy of Science, Engineering and Technology, 2012, 68 : 759-765.

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宇航学报
2007年 第3期

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