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中国科学院力学研究所机构知识库
Knowledge Management System of Institue of Mechanics, CAS
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力学所知识产出(19... [3]
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姜宗林 [8]
滕宏辉 [8]
胡宗民 [8]
方宜申 [3]
邓博 [2]
Ng HD [1]
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Creator:胡宗民
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旋转爆轰波中多波流动模式的数值研究
期刊论文
推进技术, 2018, 卷号: 40, 期号: 02, 页码: 398-406
Authors:
杨鹏飞
;
牟乾辉
;
滕宏辉
;
胡宗民
;
姜宗林
Unknown(1242Kb)
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Submit date:2019/05/09
旋转爆轰波
总温
双波对撞
双波同向
均匀来流有限长楔面诱导斜爆轰波数值研究
会议论文
第十届全国流体力学学术会议, 中国浙江杭州, 2018年10月25日至28日
Authors:
方宜申
;
胡宗民
;
滕宏辉
;
姜宗林
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Adobe PDF(142Kb)
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Submit date:2019/11/21
斜爆轰波
氢氧
起爆机理
临界值
Numerical study of inflow equivalence ratio inhomogeneity on oblique detonation formation in hydrogen-air mixtures
期刊论文
AEROSPACE SCIENCE AND TECHNOLOGY, 2017, 卷号: 71, 页码: 256-263
Authors:
Fang YS(方宜申)
;
Hu ZM(胡宗民)
;
Teng HH(滕宏辉)
;
Jiang ZL(姜宗林)
;
Ng HD
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Adobe PDF(2663Kb)
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View/Download:384/95
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Submit date:2018/02/08
Oblique Detonation
Equivalence Ratio
Mixture Inhomogeneity
Detailed Chemistry
圆球诱发斜爆轰波的数值研究
期刊论文
力学学报, 2017, 卷号: 49, 期号: 02, 页码: 268-273
Authors:
方宜申
;
胡宗民
;
滕宏辉
;
姜宗林
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Submit date:2017/12/22
斜爆轰
氢氧
起爆
熄爆
超声速圆柱尾流及其稳定性的数值模拟
会议论文
LHD2013夏季学术研讨会, 河北平山, 2013
Authors:
李馨东
;
胡宗民
;
滕宏辉
;
姜宗林
Adobe PDF(309Kb)
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Submit date:2014/01/23
超声速
分离流动
尾流
不稳定性
数值模拟
变截面管道中爆轰胞格演变机制的数值模拟研究
期刊论文
中国科学. G辑, 物理学,力学,天文学, 2008, 卷号: 38, 期号: 2, 页码: 206-216
Authors:
邓博
;
胡宗民
;
滕宏辉
;
姜宗林
Adobe PDF(2158Kb)
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Submit date:2010/05/03
爆轰胞格
横波
基元反应
数值模拟
Numerical Investigation On Detonation Cell Evolution In A Channel With Area-Changing Cross Section
期刊论文
Science In China Series G-Physics Mechanics & Astronomy, 2007, 页码: 797-808
Authors:
Deng B(邓博)
;
Hu ZM(胡宗民)
;
Teng HH(滕宏辉)
;
Jiang ZL(姜宗林)
;
Deng, B (reprint author), Chinese Acad Sci, Inst Mech, Key Lab High Temperature Gas Dynam, Beijing 100080, Peoples R China.
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Submit date:2009/08/03
Detonation Cells
Transverse Waves
Detailed Chemical Reaction Model
Numerical Simulation
Shock
Detonation initiation developing from the Richtmyer-Meshkov instability
期刊论文
Acta Mechanica Sinica, 2007, 卷号: 23, 期号: 4, 页码: 343-349
Authors:
Teng HH(滕宏辉)
;
Jiang ZL(姜宗林)
;
Hu ZM(胡宗民)
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View/Download:323/96
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Submit date:2015/12/15
Hot Spot
Numerical-simulation
Deflagration Front Acceleration
Shock-waves
Detonation Initiation
Hot-spots
Richtmyer-meshkov Instability
Transition
Deflagration
Ignition
Mixture