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Volume 25 Issue 5
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Citation:
shu

One dimension finite difference simulation of laser ignition

  • 1.

    School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing, 210094

  • Received Date: 2000-09-30
    Accepted Date: 2000-11-20
  • Based on the thermal mechanism of laser ignition, a one dimension finite difference model has been developed to model the process of laser ignition.The laser ignition characters of B/KNO3/bakelite has also been simulated. Results show that with laser energy, laser power, laser energy density or laser absorption coefficient increasing, ignition delay time is prolonged,variation curve of surface temperature of the powder appears double peaks with laser energy approaching ignition energy threshold,and that ignition power threshold increases with beam semidiameter augmenting, while reduces with laser pulse augmenting. Simulation results are accord with actual rules of laser ignition and experimental outcomes on the whole.
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  • [1]

    Ewick D W. Finite Difference Modeling of Laser Diode Ignited Components. Proceedings of the 15th International Pyrotechnics Seminar, Boulder, CO,1990:277
    [2]

    Ewick D W. Improved 2D Finite Difference Model for Laser Diode Ignited Components. Proceedings of the 18th International Pyrotechnics Seminar, Breckenridge, CO,1992:255
    [3] 孙同举,沈瑞琪,戴实之.应用激光,1996;16(3):110~112
    [4] 周彦煌,王升晨.实用两相流内弹道学.北京:兵器工业出版社,1990:72
    [5] 俞佐平. 传热学. 北京:人民教育出版社,1979:280
    [6] 沈瑞琪,叶迎华, 戴实之.激光技术,1997;21 (4):193~195
    [7] 沈瑞琪,叶迎华, 戴实之.应用激光,1995;15(5):207~208
    [8] 孙同举,沈瑞琪,叶迎华.兵工学报-火化工分册,1996;18(1):12~14
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One dimension finite difference simulation of laser ignition

  • 1. School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing, 210094
  • Received Date: 2000-09-30
  • Accepted Date: 2000-11-20
  • Available Online: 2001-09-25

Abstract: Based on the thermal mechanism of laser ignition, a one dimension finite difference model has been developed to model the process of laser ignition.The laser ignition characters of B/KNO3/bakelite has also been simulated. Results show that with laser energy, laser power, laser energy density or laser absorption coefficient increasing, ignition delay time is prolonged,variation curve of surface temperature of the powder appears double peaks with laser energy approaching ignition energy threshold,and that ignition power threshold increases with beam semidiameter augmenting, while reduces with laser pulse augmenting. Simulation results are accord with actual rules of laser ignition and experimental outcomes on the whole.

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