«Previous Article|Table of Contents|Next Article»

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]

Issue:

2022年03期

Page:

57-62

Research Field:

研究与设计

Publishing date:

Info

Title:

Design and experimental study of gas oxygen/methane torch igniter

Author(s):

WANG Yukun;  WANG Mei;  ZHANG Feng;  FENG Jianchang

(Xian Aerospace Propulsion Institute, Xian 710100,China)

Keywords:

liquid oxygen/methane rocket engine torch igniter combustion chamber experimental study

PACS:

V433-34

DOI:

-

Abstract:

For a liquid oxygen/methane rocket engine, in order to develop an igniter for multiple uses, a design scheme of variable structure gas oxygen/gas methane torch igniter was proposed.According to the design requirements and technical indexes, the tests of variable structure, variable indent length and variable mixing ratios were carried out to verify the reliability of the igniter design.The experimental results show that the higher the mixing ratio is, the higher the combustion chamber pressure is, while the secondary combustion at the outlet does not change.The change of indent length does not affect the combustion chamber pressure and the afterburning at outlet is similar.The mixing of the discharged methane and the oxygen-enriched fuel gas at the outlet can effectively promote the secondary combustion at the outlet, and the shrinkage outlet can effectively enhance the mixing.The diameter of the ignition duct can effectively change the outlet speed, and the decrease of the outlet speed can effectively promote the mixing of methane in the discharge path and the central gas, which is conducive to stable combustion.

References:

[1] 李斌,张小平,高玉闪.我国可重复使用液体火箭发动机发展的思考[J].火箭推进,2017,43(1):1-7.
LI B,ZHANG X P,GAO Y S.Consideration on development of reusable liquid rocket engine in China[J].Journal of Rocket Propulsion,2017,43(1):1-7.
[2] 孙宏明.液氧/甲烷发动机评述[J].火箭推进,2006,32(2):23-31.
SUN H M.Review of liquid oxygen/methane rocket engine[J].Journal of Rocket Propulsion,2006,32(2):23-31.
[3] 蔡震宇,王铁岩,曹红娟.一种气氧/气甲烷火炬式电点火器方案研究[J].载人航天,2016,22(3):338-342.
[4] KLEM M D,SMITH T D,WADEL M F.Liquid oxygen/liquid methane propulsion and cryogenic advanced development[EB/OL].https://www.researchgate.net/publication/287060866_Liquid_oxygenliquid_methane_propulsion_and_cryogenic_advanced_development,2011.
[5] 孙纪国,王珏.高混合比火炬式电点火器试验研究[J].推进技术,2000,21(1):33-35.
[6] 孙纪国,王剑虹.低温富燃火炬点火器研究[J].导弹与航天运载技术,1999(6):17-22.
[7] GEORGE A,REPAL B.Hydrogen oxygen torch ignitor[EB/OL].https://ntrs.nasa.gov/search.jsp?R=199400229212018-12-18T13:56:52+00:00Z,1994.
[8] BREISACHER K,AJMANI K.LOX/methane main engine igniter tests and modeling[C]//44th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit.Reston,Virginia:AIAA,2008.
[9] SANCHEZ L E,ELLIS R J,DORADO V,et al.An experimental investigation of a LOX/CH₄ torch ignition system for propulsion research[C]//50th AIAA/ASME/SAE/ASEE Joint Propulsion Conference.Reston,Virginia:AIAA,2014.
[10] FLORES J R,SANCHEZ L,DORADO V,et al.An experimental evaluation of a torch ignition system for propulsion research[C]//49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference.Reston,Virginia:AIAA,2013.
[11] LUX J,HAIDN O.Flame stabilization in high-pressure liquid oxygen/methane rocket engine combustion[J].Journal of Propulsion and Power,2009,25(1):15-23.
[12] 刘巍,杨涛,胡建新,等.气氧/酒精火炬式点火器试验[J].推进技术,2008,29(3):269-272.
[13] 王铁岩,郑孟伟,蔡振宇.气氧甲烷火炬式点火器稳态仿真分析[J].导弹与航天运载技术,2016(4):63-66.
[14] 张蒙正,张泽平,李鳌,等.两股互击式喷嘴雾化性能实验研究[J].推进技术,2000,21(1):57-59.
[15] 潘一力,周海清,吉林,等.液氧/液甲烷姿控发动机点火技术研究[J].火箭推进,2019,45(4):16-25.
PAN Y L,ZHOU H Q,JI L,et al.Study on ignition technology of LOX/LCH₄ attitude control engine[J].Journal of Rocket Propulsion,2019,45(4):16-25.
[16] 王艳,方杰,杨进慧,等.氢氧火炬点火器低压燃烧流动仿真研究[J].航空动力学报,2021,36(11):2344-2352.
[17] 邓维鑫,乐嘉陵,杨顺华,等.空气/煤油火炬点火器设计及试验[J].航空动力学报,2017,32(7):1554-1560.
[18] 王栋,郭红杰,梁国柱,等.N₂O/C₃H₈火炬式点火器试验研究[J].推进技术,2010,31(6):777-782.
[19] 刘盛田,柳琪,高磊,等.N₂O/H₂富燃火炬式点火器研究[J].舰船科学技术,2008,30(2):94-97.
[20] 俞南嘉,张国舟,刘红军,等.氦气谐振点火器和气氧/煤油火炬点火器研究[J].推进技术,2003,24(6):553-556.

Memo

Memo:

-

Common functions

Last Update: 1900-01-01