Low hydrocarbon mixtures ignition delay times investigation behind reflected shock waves

被引:0
|
作者
N. Lamoureux
C.-E. Paillard
V. Vaslier
机构
[1] Laboratoire de Combustion et des Systèmes Réactifs,
[2] CNRS,undefined
[3] 1C,undefined
[4] avenue de la recherche scientifique,undefined
[5] 45071 Orléans Cedex 2,undefined
[6] France ,undefined
[7] Direction de la Recherche,undefined
[8] Gaz de France 361,undefined
[9] avenue du Président Wilson,undefined
[10] 93211 La Plaine st Denis,undefined
[11] France ,undefined
来源
Shock Waves | 2002年 / 11卷
关键词
Key words: Shock tube, Ignition delay time, Kinetic modelling, Low hydrocarbon;
D O I
暂无
中图分类号
学科分类号
摘要
Ignition delays for low alkanes/oxygen mixtures highly diluted with argon were measured behind a reflected shock wave using ultraviolet emission spectrometry in wide ranges of temperature (1200–2700 K), pressure (0.1–1.8 MPa), equivalence ratio (0.5–2) and dilution (89–99%). For each alkane (methane, ethane and propane), a correlation between ignition delay time, temperature, pressure and concentration is proposed and compared with those obtained in previous studies. This correlation enables the estimation of the delay time with an accuracy better than 20% for all measurement ranges. Results are compared with those from a recent study of the detailed kinetic modelling of the alkane oxidation.
引用
收藏
页码:309 / 322
页数:13
相关论文
共 50 条
  • [21] IGNITION DELAY OF METHANE IN REFLECTED SHOCK-WAVES
    KRISHNAN, KS
    RAVIKUMAR, R
    COMBUSTION SCIENCE AND TECHNOLOGY, 1981, 24 (5-6) : 239 - 245
  • [22] Ignition and chemical kinetics of acrolein-oxygen-argon mixtures behind reflected shock waves
    Chatelain, K.
    Mevel, R.
    Menon, S.
    Blanquart, G.
    Shepherd, J. E.
    FUEL, 2014, 135 : 498 - 508
  • [23] EFFECT OF BROMOMETHANE ON THE IGNITION IN METHANE OXYGEN ARGON MIXTURES BEHIND REFLECTED SHOCK-WAVES
    INOMATA, T
    MORIWAKI, T
    OKAZAKI, S
    COMBUSTION AND FLAME, 1985, 62 (02) : 183 - 191
  • [24] Investigation of the kinetics of OH∗ and CH∗ chemiluminescence in hydrocarbon oxidation behind reflected shock waves
    M. Bozkurt
    M. Fikri
    C. Schulz
    Applied Physics B, 2012, 107 : 515 - 527
  • [25] Investigation of the kinetics of OH* and CH* chemiluminescence in hydrocarbon oxidation behind reflected shock waves
    Bozkurt, M.
    Fikri, M.
    Schulz, C.
    APPLIED PHYSICS B-LASERS AND OPTICS, 2012, 107 (03): : 515 - 527
  • [26] Influence of steam dilution on ignition delay time of dimethyl ether/air mixtures at high pressure measured behind reflected shock waves
    Zander, Lisa
    Kather, Yannick
    Vinkeloe, Johann
    Djordjevic, Neda
    COMBUSTION AND FLAME, 2024, 259
  • [27] Multi-speciation and ignition delay time measurements of ammonia oxidation behind reflected shock waves
    Rault, Taylor M.
    Clees, Sean
    Figueroa-Labastida, Miguel
    Barnes, Spencer C.
    Ferris, Alison M.
    Obrecht, Nicolas
    Callu, Cyrille
    Hanson, Ronald K.
    COMBUSTION AND FLAME, 2024, 260
  • [28] Comparison of characteristic time diagnostics for ignition and oxidation of fuel/oxidizer mixtures behind reflected shock waves
    Hall, JM
    Rickard, MJA
    Petersen, EL
    COMBUSTION SCIENCE AND TECHNOLOGY, 2005, 177 (03) : 455 - 483
  • [29] IGNITION OF AMMONIA-AIR MIXTURES BY REFLECTED SHOCK WAVES
    MIYAMA, H
    ENDOH, R
    COMBUSTION AND FLAME, 1967, 11 (04) : 359 - &
  • [30] Nitromethane ignition behind reflected shock waves: Experimental and numerical study
    Mathieu, O.
    Giri, B.
    Agard, A. R.
    Adams, T. N.
    Mertens, J. D.
    Petersen, E. L.
    FUEL, 2016, 182 : 597 - 612
12345