Experimental study of solid-propellant ignition transient and flame spreading under convective flows

被引:0
作者
L. Galfetti
G. Colombo
A. Menalli
G. Benzoni
C. Galli
机构
[1] Technical University,
来源
Combustion, Explosion and Shock Waves | 2000年 / 36卷
关键词
Ignition Delay; Flame Front; Flame Propagation; Flame Spreading; Solid Propellant;
D O I
暂无
中图分类号
学科分类号
摘要
A project on unsteady three-dimensional numerical simulation of solid-propellant rocket motors is being developed by this research group. In this general approach, ignition and flame spreading are critical points. Experimental investigations were performed to support the modeling approach. The paper describes the first step of this experimental investigation. Attention is focused on the ignition delay and flame-propagation velocity for a flat sample of a solid propellant containing ammonium perchlorate and hydroxyl-terminated polybutadiene. Different measuring techniques are implemented, which can be extended to more complex geometries and to different operating conditions, according to the needs of the numerical-simulation approach.
引用
收藏
页码:108 / 118
页数:10
相关论文
共 50 条
  • [41] Experimental study on flame propagation over horizontal electrical wires under varying pressure
    Wang, Zhi
    Wang, Jian
    INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 2020, 156
  • [42] Experimental and numerical study, under LTC conditions, of ammonia ignition delay with and without hydrogen addition
    Pochet, Maxime
    Dias, Veronique
    Moreau, Bruno
    Foucher, Fabrice
    Jeanmart, Herve
    Contino, Francesco
    PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2019, 37 (01) : 621 - 629
  • [43] Experimental study on ignition and flame propagation of premixed ammonia ignited by Direct-Injected diesel in an optical rapid compression Machine
    Zheng, Liang
    Zhang, Jinhe
    Huang, Li
    Tan, Xiaoxing
    Li, Hongmei
    Pan, Jiaying
    Feng, Mingzhi
    FUEL, 2024, 378
  • [44] Friction-induced ignition study of HTPB propellant based on a coupled chemo-mechano-thermodynamic model under ultrahigh acceleration overload conditions
    Wang, Ran
    Wang, Ningfei
    Gao, Jun
    Zhang, Yiming
    Zhang, Anni
    Wu, Yi
    CASE STUDIES IN THERMAL ENGINEERING, 2023, 52
  • [45] Experimental study on shock waves, spontaneous ignition, and flame propagation produced by pressurized hydrogen release through tubes with varying obstacle location
    Li, Ping
    Duan, Qiangling
    Jin, Kaiqiang
    Zeng, Qian
    Sun, Jinhua
    FUEL, 2021, 290
  • [46] Experimental and modeling study on auto-ignition characteristics of methane/hydrogen blends under engine relevant pressure
    Zhang, Yingjia
    Jiang, Xue
    Wei, Liangjie
    Zhang, Jiaxiang
    Tang, Chenglong
    Huang, Zuohua
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2012, 37 (24) : 19168 - 19176
  • [47] Experimental study on flame propagation and pressure characteristics of corn starch explosion under airflow transport conditions
    Zhang S.
    Yu J.
    Ding J.
    Yan X.
    Huagong Xuebao/CIESC Journal, 75 (05): : 2072 - 2080
  • [48] Experimental and kinetic study on ignition of DME/n-butane mixtures under high pressures on a rapid compression machine
    Wu, Han
    Shi, Zhicheng
    Lee, Chia-fon
    Zhang, Hongguang
    Xu, Yonghong
    FUEL, 2018, 225 : 35 - 46
  • [49] A new method to predict high and low-temperature ignition delays under transient thermodynamic conditions and its experimental validation using a Rapid Compression-Expansion Machine
    Desantes, Jose M.
    Bermudez, Vicente
    Javier Lopez, J.
    Lopez-Pintor, Dario
    ENERGY CONVERSION AND MANAGEMENT, 2016, 123 : 512 - 522
  • [50] Experimental study of methane addition effect on shock wave propagation, self-ignition and flame development during high-pressure hydrogen sudden discharge from a tube
    Zeng, Qian
    Duan, Qiangling
    Sun, Dongxu
    Li, Ping
    Zhu, Mengyuan
    Wang, Qingsong
    Sun, Jinhua
    FUEL, 2020, 277
12345