[1] Markstein G H. Nonsteady flame propagation[M]. New York: MacMillan, 1964.
[2] 靳建明. 火焰在激波诱导下稳定性问题的数值模拟和实验验证[D]. 南京: 南京理工大学, 2004.
[3] 王超, 施红辉. 激波诱导燃烧转爆轰数值模拟[C]//中国科技大学近代力学系. 第14届全国激波与激波管学术会议论文集. 安徽黄山, 2010: 164167.
[4] Joseph Y, Toshi K, Edward E. Application of shockinduced mixing to supersonic combustion[J]. AIAA J, 1993, 31: 854862.
[5] Gamezo V N, Khokhlov A M, Oran E S. The influence of shock bifurcation on shockflame interactions and DDT[J]. Proc. Combustion Institute, 2001, 29: 18101826.
[6] 董刚, 范宝春, 谢波. 温度梯度影响爆燃转爆轰的数值模拟[J]. 中国安全生产科学技术, 2007, 6(3): 3943.
[7] Bonnie J M, Michael J Z. Sanford gordon NASA glenn coefficients for calculating thermodynamic properties of individual species[M]. Maryland: NASA Glenn Research Center, 2002.
[8] Khokhlov A M, Oran E S. Numerical simulation of detonation initiation in a flame brush: the role of hot spots[J]. Combustion and Flame, 1999, 3: 400416.
[9] 董刚, 范宝春. 氢气空气混合物种瞬态爆轰过程的二维数值模拟[J]. 高压物理学报, 2004, 18(1): 4046.
[10] 陈永刚, 何立明, 刘建勋. 时空守恒元和解元方法的爆震波一维数值模拟[J]. 推进技术, 2005, 26(3): 256259.
[11] Zhang Z C, Yu S T. A modified spacetime conversation element and solution element method for Euler and NavierStokes equations[J]. AIAA J, 1999, 37: 299327.
[12] Chang S C. The method of spacetime conservation element and solution elementa new approach for solving the NavierStokes and Euler equations[J]. J Comp Phys, 1995, 119: 295324.
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