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[1]范瑞祥,田玉蓉,黄兵.新一代运载火箭增压技术研究[J].火箭推进,2012,38(04):9-16.
　FAN Rui-xiang,TIAN Yu-rong,HUANG Bing.Study on pressurization of new generation launch vehicle[J].Journal of Rocket Propulsion,2012,38(04):9-16.

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新一代运载火箭增压技术研究

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 38 期数: 2012年04期页码: 9-16 栏目: 研究与设计出版日期: 2012-08-15

Title:: Study on pressurization of new generation launch vehicle

文章编号:: 1672-9374(2012)04-0009-08

作者:: 范瑞祥; 田玉蓉; 黄兵; 中国运载火箭技术研究院，北京100076

Author(s):: FAN Rui-xiang; TIAN Yu-rong; HUANG Bing; China Academy of Launch Vehicle Technology，Beijing 100076, China

关键词:: 运载火箭; 加热增压; 液氧煤油发动机; 贮箱增压

Keywords:: launch vehicleheating pressurizationliquid oxygen/kerosene propellant rocket enginetank pressurization

分类号:: V434-34

文献标志码:: A

摘要:: 随着新一代运载火箭研制的开展，新型120 t级高压补燃液氧煤油发动机将得到广泛的使用，该发动机采用的推进剂贮箱增压系统设计被列为新一代运载火箭研制的重大关键技术之一。在对国内外主要液体运载火箭增压方案进行分析的基础上对120 t级液氧煤油发动机的贮箱增压系统进行了研究，提出了液氧贮箱采用压力传感器与电磁阀组合的常温氦气加温增压，煤油贮箱采用压力传感器与电磁阀组合的常温氦气增压方案，并针对液氧贮箱采用常温氦气加温增压的方案开展了理论分析和全尺寸系统级试验研究。理论分析和试验结果表明，该增压方案可行。

Abstract:: With the development of new generation launch vehicles, a high pressure staged-combustion liquid oxygen/kerosene propellant rocket engine with thrust level of 120 t will be used extensively. The design of the pressurization system is one of the key technologies of new generation launch vehicles. Based on the review of pressurization system used on the domestic and foreign launch vehicles, a new tank pressurization system of launch vehicle used on the liquid oxygen/kerosene engine was studied, which used helium gas (heated helium gas in liquid oxygen tank and room temperature helium gas in kerosene tank) as the pressurization gas, and tank pressure and helium flow were controlled by tank pressure sensors and electromagnetic valves. Also a full size experimental research and theoretical analysis of heated helium pressurization system for liquid oxygen tank was conducted. The experiment and analysis results indicate that the pressurization system is feasible.

参考文献/References:

[1]廖少英. 液体火箭推进增压输送系统[M]. 北京: 国防工业出版社, 2007.
[2]STOCHL J R, MALOY J E, MASTERS A P, et al. Gaseous- helium requirements for the discharge of liquid hydrogen from a 3.96-meter-(13-fx") diameter spherical tank, NASA TN D-7019[R]. USA: NASA, 1970.
[3]TEISSIER A. Liquid helium storage for Ariane 5 main stage oxygen tank pressurization, AIAA 95-2956[R]. USA: AIAA, 1995.
[4]LACOVIC R F. Comparison of experimental and calculated helium requirements for pressurization of a centaur liquid oxygen tank, NASA TM X-2013[R]. USA: NASA, 1970.
[5]ZILLIAC G, KARABEYOGLU M A. Modeling of propellant tank pressurization, AIAA 2005-3549[R]. USA: AIAA, 2005.
[6]GRAYSON D G, ALFREDO L, CHANDLER O F, et al. Cryogenic tank modeling for the Saturn AS-203 expe- riment, AIAA 2006-5258[R]. USA: AIAA, 2006.
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[8]STOUT P W, SNELL S A. Multiple on-off solenoid valve control for a launch vehicle propellant tank pressurization system, AIAA-99-4085[R]. USA: AIAA, 1999.

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备注/Memo

收稿日期：2012-05-17；修回日期：2012-06-13
作者简介：范瑞祥（1965—），男，博士，研究员，研究领域为运载火箭总体设计

更新日期/Last Update: 1900-01-01