PDF下载 分享
[1]邱中华,刘志杰,朱文杰,等.板式表面张力贮箱导流板的理论计算与试验验证[J].火箭推进,2020,46(02):21-28.
 QIU Zhonghua,LIU Zhijie,ZHU Wenjie,et al.Theoretical calculation and experimental verification of vanes using in vane type surface tension tank[J].Journal of Rocket Propulsion,2020,46(02):21-28.
点击复制

板式表面张力贮箱导流板的理论计算与试验验证

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 46 期数: 2020年02期 页码: 21-28 栏目: 研究与设计 出版日期: 2020-04-28
Title:
Theoretical calculation and experimental verification of vanes using in vane type surface tension tank
文章编号:
1672-9374(2020)02-0021-08
作者:
邱中华12刘志杰12朱文杰12黄立钠12陈志坚12
(1.上海空间推进研究所,上海 201112; 2.上海空间发动机工程技术研究中心,上海 201112)
Author(s):
QIU Zhonghua12 LIU Zhijie12 ZHU Wenjie12 HUANG Lina12 CHEN Zhijian12
(1.Shanghai Institute of Space Propulsion, Shanghai 201112, China; 2.Shanghai Engineering Research Center of Space Engine, Shanghai 201112, China)
关键词:
表面张力贮箱 导流板 理论计算 中性浮力试验 试验验证
Keywords:
surface tension tank vane theoretical calculation neutral buoyancy test experimental verification
分类号:
V432
文献标志码:
A
摘要:
板式表面张力贮箱的PMD通常包括导流板与出口附近的蓄液器,导流板是影响板式贮箱性能的关键因素之一,由于地面没有失重环境无法直接进行导流板的工作原理地面验证。为了确认导流板的可用性,通过理论分析建立了导流板液体传输能力的计算方法,通过中性浮力试验对导流板的液体收集能力进行了试验验证。经过多次试验的试验结果与理论计算结果的对比分析,得到了一种可应用于工程设计的计算方法,利用该方法编程形成了一套计算软件,可指导板式表面张力贮箱内导流板的设计。
Abstract:
Vane type surface tension tank’s PMD usually include vanes at wall and liquid reservoir at outlet.Vane is a critical component on liquid collecting capacity, but this cannot be verificated at the ground condition because without microgravity condition.In order to verify the usability of vans, theoretical calculation method for liquid transportation ability of vane was built.Then neutral buoyancy test was conducted to validate liquid collection capacity of vane.The experimental verification result was contrasted with theoretical calculation result, and a calculation method sutiable for engineering design was obtained.Finally a vane computing software was formed to direct the vanes design in vane type surface tension tank.

参考文献/References:

[1] JAEKLE D E.Propellant management device conceptual design and analysis:vanes[R].AIAA 1991-2172.
[2] JAEKLE D E.Propellant management device conceptual design and analysis:sponges[R].AIAA 1993-1970.
[3] JAEKLE D E.Propellant management device conceptual design and analysis:traps and troughs[R].AIAA 1995-2531.
[4] ROLLINS J R, GROVE R K, JAEKLE D E.Twenty three years of surface tension propellant management system design, development manufacture test and operation[R].AIAA 1985-1199.
[5] 宁继荣,陈祖奎,马键,等.可再充填启动篮表面张力推进剂管理装置设计及试验研究[J].火箭推进,2011,37(2):25-29.NING J R, CHEN Z K, MA J, et al. Design and test of refillable start-basket surface tension PMD[J]. Journal of Rocket Propulsion, 2011, 37(2):25-29.
[6] JAEKLE D E.Propellant management device conceptual design and analysis:galleries[R].AIAA 1997-2811.
[7] 宁继荣,苏志一,张涛.多孔板泡破点试验研究[J].火箭推进,2017,43(6):48-53.NING J R, SU Z Y, ZHANG T. Test research on bubble point of perforated plate[J]. Journal of Rocket Propulsion, 2017, 43(6):48-53.
[8] 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.
[9] 穆小强,陈祖奎.竖管-叶片式表面管理装置的设计与分析[J].火箭推进,2013,39(1):15-18.MU X Q, CHEN Z K. Design and analysis for standpipe and its vane surface tension management device[J]. Journal of Rocket Propulsion, 2013, 39(1):15-18.
[10] DEBRECENI M J, KUO T K, JAEKLE D E.Development of a composite wrapped propellant tank[R].AIAA 2004-3505.
[11] DEBRECENI M J, LAY W D, KUO T K, et al.Propellant tank for an advanced communications satellite[R]. AIAA 2001-3826.
[12] 王毅,常小庆.微重力环境下推进剂贮箱中三维气液平衡界面的数值模拟[J].火箭推进,2007,33(3):31-35.WANG Y, CHANG X Q. Numerical simulation of three-dimensional gas-liquid equilibrium interfaces in the propellant tank under microgravity condition[J]. Journal of Rocket Propulsion, 2007, 33(3):31-35.
[13] 李乐.推进剂微重力加注稳定性仿真分析[J].火箭推进,2013,39(4):41-45.LI L. Simulation and analysis of propellant refueling stability under low-gravity condition[J]. Journal of Rocket Propulsion, 2013, 39(4):41-45.
[14] 穆小强,陈祖奎,宁继荣,等.海绵表面张力管理装置的设计与分析[J].火箭推进,2010,36(5):13-16.MU X Q, CHEN Z K, NING J R, et al. Design and analysis for the sponge surface tension propellant managementdevice[J]. Journal of Rocket Propulsion, 2010, 36(5):13-16.
[15] DUCRET E, MOULLEC L Le, SPENCER B, et al.Propellant management device studies computational methods and neutral buoyancy tests[R].AIAA 1992-3611.
[16] 孟庆平,陈志坚,简小刚,等.表面张力贮箱设计中的中性浮力试验方法[J].上海航天,2000,4:48-51.
[17] BENTZ M D, KNOLL R H, LIN C S.Low-g fluid mixing:further results from the tank pressure control experiment[R].AIAA 1993-2423.
[18] CHATO D J.Technologies for refueling spacecraft onorbit[R].AIAA 2000-5107.
[19] TAM W, BEHRUZI P, JAEKLE D E, et al.The evolutionary forces and the design and development of propellant management devices for space flight in europe and the united states[Z].SP2016_3124615.
[20] COLLICOTT S H.Convergence behavior of surface evolver applied to a generic propellant management device[R].AIAA 1999-0846.

相似文献/References:

[1]于 康,谢荣华,陈晓江.表面张力贮箱电子束焊接工艺研究[J].火箭推进,2015,41(05):89.
 YU Kang,XIE Ronghua,CHEN Xiaojiang.Study on electron beam welding process for surface tension tank[J].Journal of Rocket Propulsion,2015,41(02):89.
[2]李 乐.推进剂微重力加注稳定性仿真分析[J].火箭推进,2013,39(04):41.
 LI Le.Simulation and analysis of propellant refueling stability under low-gravity condition[J].Journal of Rocket Propulsion,2013,39(02):41.
[3]陈志坚,邱中华.一种承力式表面张力贮箱[J].火箭推进,2014,40(01):25.
 CHEN Zhi-jian,QIU Zhong-hua.Bearing surface tension tank[J].Journal of Rocket Propulsion,2014,40(02):25.
[4]郝贵欣,张 华,董 飞.表面张力贮箱泡破点盲测技术研究[J].火箭推进,2012,38(05):59.
 HAO Gui-xin,ZHANG Hua,DONG Fei.Blind test technology for bubble break point of surface tension tank[J].Journal of Rocket Propulsion,2012,38(02):59.
[5]王毅,常小庆.微重力环境下推进剂贮箱中三维气液平衡界面的数值模拟[J].火箭推进,2007,33(03):31.
 Wang Yi,Chang Xiaoqing.Numerical simulation of three-dimensional gas-liquid equilibrium interfaces in the propellant tank under microgravity condition[J].Journal of Rocket Propulsion,2007,33(02):31.
[6]薛国宇,陈志坚,王德忠,等.低温表面张力贮箱研究[J].火箭推进,2005,31(03):26.
 Xue Guoyu,Chen Zhijian,Wang Dezhong.Study on cryogenic surface tension propellant tank[J].Journal of Rocket Propulsion,2005,31(02):26.
[7]王英杰,杨卫鹏.表面张力贮箱电子束焊接工艺研究[J].火箭推进,2016,42(05):82.[doi:10.3969/j.issn.1672-9374.2016.05.014]
 WANG Yingjie,YANG Weipeng.Research on electron-beam welding of surface tension tank[J].Journal of Rocket Propulsion,2016,42(02):82.[doi:10.3969/j.issn.1672-9374.2016.05.014]

备注/Memo

收稿日期:2019-04-18; 修回日期:2019-08-13基金项目:国家装备预先研究项目(30508040301)作者简介:邱中华(1982—),男,硕士,高级工程师,研究领域为航天器用推进剂贮箱的设计

更新日期/Last Update: 2020-04-25