PDF下载 分享
[1]张小通,李 茂,张家仙,等.氢氧火箭发动机高模试验富氧蒸汽引射仿真[J].火箭推进,2023,49(02):100-106.
 ZHANG Xiaotong,LI Mao,ZHANG Jiaxian,et al.Simulation of oxygen-rich steam ejection in high altitude simulation test for hydrogen/oxygen rocket engine[J].Journal of Rocket Propulsion,2023,49(02):100-106.
点击复制

氢氧火箭发动机高模试验富氧蒸汽引射仿真

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 49 期数: 2023年02期 页码: 100-106 栏目: 目次 出版日期: 2023-04-25
Title:
Simulation of oxygen-rich steam ejection in high altitude simulation test for hydrogen/oxygen rocket engine
文章编号:
1672-9374(2023)02-0100-07
作者:
张小通1李 茂12张家仙12刘瑞敏12
(1.北京航天试验技术研究所, 北京 100074; 2.北京市航天试验技术与装备工程技术研究中心,北京 100074)
Author(s):
ZHANG Xiaotong1 LI Mao12 ZHANG Jiaxian12 LIU Ruimin12
(1.Beijing Institute of Aerospace Testing Technology, Beijing 100074,China
关键词:
氢氧发动机 高空模拟试验 超—超引射器 富氧蒸汽引射 燃气处理
Keywords:
hydrogen-oxygen engine high altitude simulation test supersonic-supersonic ejector oxygen rich steam ejection gas treatment
分类号:
V433.9
文献标志码:
A
摘要:
氢氧火箭发动机在高空模拟试验中喷出富氢燃气,其中的残余氢气与倒吸进引射系统中的空气混合容易发生爆炸,为研究富氧蒸汽引射处理氢氧火箭发动机高空模拟试验中残余氢气的技术,采用计算流体力学(CFD)及多步化学反应动力学模型开展单级环形超—超引射器仿真,获得富氧蒸汽引射的平均流场,分析富氧蒸汽引射并发生补燃时超—超引射器的稳态工作特性,并考察富氧蒸汽中氧气含量、富氧蒸汽温度对残余氢气处理效果的影响。仿真结果表明,富氧蒸汽引射并发生补燃时环形引射器在稳态下正常工作; 补燃主要发生在引射器混合室和第二喉道前端的剪切混合层; 增大富氧蒸汽的氧气含量或温度,可使引射器排气中残余氢气含量降低,增强燃气处理效果。
Abstract:
During high altitude simulation test, hydrogen-rich gas is jetted out from hydrogen-oxygen rocket engine, where the residual hydrogen mixed with air backed up into the ejection system may explode.To study the technology of oxygen-rich steam ejection to treat the residual hydrogen in the high altitude simulation of hydrogen-oxygen rocket engine, the single-stage annular supersonic-supersonic ejector simulation was carried out using computational fluid dynamics and multi-step chemical reaction kinetics model to obtain the oxygen-rich steam ejection mean flow field.Analyzing the working characteristics of the ejector in the steady state, and the effects of oxygen concentration in oxygen-rich steam and steam temperature on the treatment of residual hydrogen were also investigated.The simulation results show that the annular ejector works normally in steady state when using oxygen-rich steam to inject.Afterburning occurs mainly in the shear mixing layer at the mixing chamber and the front section of the ejector.When the oxygen concentration or temperature of the oxygen-rich steam is increased, it can reduce the concentration of hydrogen in the exhaust gas of the ejector and enhance the treatment effect of hydrogen-rich gas.

参考文献/References:

[1] 唐军刚,陈塞崎,陈益,等.国内外运载火箭上面级发展现状分析[J].中国航天,2012(9):5-10.
[2] 王永忠.液体火箭发动机高空模拟试验及环境治理[J].火箭推进,2000,26(6):8-20.
WANG Y Z.High altitude simulation test and environmental treatment of liquid rocket engine[J].Journal of Rocket Propulsion,2000,26(6):8-20.
[3] 郭霄峰.液体火箭发动机试验[M].北京:中国宇航出版社,1990.
[4] SAUNDERS G,VARNER D,GROVER J.Description and operation of the A3 subscale facility[C]//45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.Reston,Virginia:AIAA,2009.
[5] 徐悦,周旭,张志成,等.火箭发动机燃气射流喷水降噪研究[J].航空动力学报,2010,25(4):816-820.
[6] 熊云,左红星,李广武,等.喷水角度对高温燃气冷却效果影响的数值仿真研究[J].弹箭与制导学报,2020,40(5):81-86.
[7] 刘俊林,徐希海,张志成,等.火箭高温高速喷流注水降噪数值计算与分析[J].航空学报,2022(1):1-15.
[8] 张元,超力德,梁国柱.高空模拟试验系统燃气冷却器结构方案设计与性能分析[C]//第六届空天动力联合会议暨中国航天第三专业信息网第四十二届技术交流会暨2021航空发动机技术发展高层论坛论文集(第三册).成都:中国科协航空发动机产学联合体,2022.
[9] 郑智嘉.大面积比喷管高模试验技术研究[D].北京:中国运载火箭技术研究院,2020.
[10] 郭敬,孔凡超,张家仙,等.发动机试验富燃气体安全处理技术发展综述[J].火箭推进,2017,43(6):1-6.
GUO J,KONG F C,ZHANG J X,et al.Development of fuel-rich gas safety treatment technology for engine test[J].Journal of Rocket Propulsion,2017,43(6):1-6.
[11] 符锡理.国外火箭技术中氢的安全排放与处理[J].国外导弹与宇航,1981(12):23-27.
[12] ГАЛЕЕВ А Г.火箭发动机研制与试验中的生态安全问题[M].赵宏译.北京:北京航天试验技术研究所,2006.
[13] 郭敬,张佳,李茂,等.大推力氢氧发动机高模试验补氧燃烧过程仿真[J].火箭推进,2019,45(6):17-22.
GUO J,ZHANG J,LI M,et al.Simulation of oxygenating combustion process in altitude simulating test for large thrust hydrogen/oxygen rocket engine[J].Journal of Rocket Propulsion,2019,45(6):17-22.
[14] SAUNDERS G,RAINES N,VARNER D.Design,activation,and operation of the J2-X subscale simulator(JSS)[C]//45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.Reston,Virginia:AIAA,2009.
[15] AHUJA V,HOSANGADI A,ALLGOOD D,et al.Computational analyses in support of sub-scale diffuser testing for the A-3 facility.Part 2:Unsteady analyses and risk[C]//45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.Reston,Virginia:AIAA,2009.
[16] 徐万武,邹建军,王振国,等.超声速环型引射器启动特性试验研究[J].火箭推进,2005,31(6):7-11.
XU W W,ZOU J J,WANG Z G,et al.Experimental investigation of the start performances of the supersonic annular ejector[J].Journal of Rocket Propulsion,2005,31(6):7-11.
[17] 徐万武,谭建国,王振国.高空模拟试车台超声速引射器数值研究[J].固体火箭技术,2003,26(2):71-74.
[18] 廖达雄.气体引射器原理及设计[M].北京:国防工业出版社,2018.
[19] 陈健.超—超引射器内部流动过程研究[D].长沙:国防科学技术大学,2012.
[20] ZIMET E.Steady state and transient operation of an ejec-tor for a chemical laser cold flow mixing experiment[Z].1976.
[21] BATT R G,BEHRENS H W.Chemical laser advanced diffuser ejector(CLADE)program alternate V-far advanced technology concepts[R].DRCPM-HEL-VR-79-1.
[22] BATT R G, BEHRENS H W.LES and RANS of turbulent flow in tube bundles[J].International Journal of Heat and Fluid Flow,1999,20(3):241-254.
[23] 李茂.富氢/富氧燃气气—气喷注器仿真与试验研究[D].北京:北京航空航天大学,2011.

相似文献/References:

[1]李 建,安 阳,石文靓.助推分离对氧泵工作特性影响的模拟试验[J].火箭推进,2020,46(03):49.
 LI Jian,AN Yang,SHI Wenjing.Effect of booster separation on operating characteristics of oxygen pump by simulation test[J].Journal of Rocket Propulsion,2020,46(02):49.
[2]夏爽,朱昊伟,超力德,等.短时大流量蒸汽引射用供汽系统方案设计与验证[J].火箭推进,2024,50(02):140.[doi:10.3969/j.issn.1672-9374.2024.02.015]
 XIA Shuang,ZHU Haowei,CHAO Lide,et al.Scheme design and verification of a steam supply system for short-time and large flow rate steam ejection[J].Journal of Rocket Propulsion,2024,50(02):140.[doi:10.3969/j.issn.1672-9374.2024.02.015]

备注/Memo

收稿日期:2022-09-17; 修回日期:2022-10-31
基金项目:国家留学基金(CSC201804980019); 宇航动力领域项目(2020KGWYY4316Tm)
作者简介:张小通(1996—),男,硕士,研究领域为液体火箭发动机试验。

更新日期/Last Update: 1900-01-01