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激光辐射下AP/HTPB复合推进剂低压燃烧特性数值模拟 被引量:2

Numerical Simulation of Low Pressure Combustion Characteristics of AP/HTPB Composite Propellant under Laser Radiation
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摘要 为了研究激光辐射对AP/HTPB复合推进剂低压燃烧的作用机理,建立二维三明治稳态燃烧模型进行数值仿真研究。针对激光辐射强度1.4W/mm^(2),压强30~90kPa的工况下推进剂的燃烧进行仿真计算,并与130~160kPa压强下自持燃烧的仿真结果进行差异分析。结果表明,激光助燃工况下,仿真计算所得燃速与实验基本一致,最大误差不超过4.2%。在激光助燃和自持燃烧工况下,组分扩散速度快,气相火焰均为预混结构。激光助燃工况下,激光辐射的能量使得近燃面处的反应比较充分,初扩散反应在气相反应中占主导地位,气相火焰高温区域离燃面近;自持燃烧工况下,AP预混反应和初扩散反应共同主导气相反应过程,气相火焰温度在垂直于燃面方向上增长缓慢且高温区域离燃面远。激光助燃比自持燃烧时的压强指数低,推进剂燃烧对压强的敏感性较弱。 In order to study the mechanism of laser radiation on low pressure combustion of AP/HTPB composite propellant,a two-dimensional sandwich steady-state combustion model was used for numerical simulation.The simulation calculation was carried out under the condition of laser radiation intensity of 1.4W/mm^(2) and pressure of 30~90kPa,and compared with the simulation results of self-sustained combustion under the pressure of 130~160kPa.The results show that the burning rate calculated by simulation is basically consistent with the experiment,and the maximum error is no more than 4.2%.Under the conditions of laser-assisted combustion and self-sustained combustion,the component diffusion is fast,and the gas phase is premixed structure.Under the laser-assisted combustion condition,the energy of laser radiation makes the reaction near the burning surface more sufficient,the initial diffusion reaction is dominant in the gas phase reaction,and the high temperature region of the gas phase flame is close to the burning surface.Under the self-sustained combustion condition,AP premix reaction and initial diffusion reaction jointly dominate the gas-phase reaction process.The gas-phase flame temperature increases slowly in the direction perpendicular to the combustion surface,and the high temperature area is far from the combustion surface.The pressure exponent of laser-assisted combustion is lower than that of self-sustained combustion,and the combustion of propellant is less sensitive to pressure.
作者 王小宁 魏志军 金钰晨 朱佳佳 龚笋根 WANG Xiao-ning;WEI Zhi-jun;JIN Yu-chen;ZHU Jia-jia;GONG Sun-gen(School of Aerospace Engineering,Beijing Institute of Technology,Beijing 100081,China;Xi’an Modern Chemistry Research Institute,Xi’an 710065,China;Kunming Ship Equipment Co.,Ltd.,Kunming 650051,China)
机构地区 北京理工大学宇航学院 西安近代化学研究所 昆明船舶设备集团有限公司
出处 《推进技术》 EI CAS CSCD 北大核心 2023年第1期253-264,共12页 Journal of Propulsion Technology
关键词 激光辐射 复合推进剂 低压燃烧特性 激光助燃 自持燃烧 Laser radiation Composite propellant Low pressure combustion characteristics Laser-assisted combustion Self-sustained combustion
分类号 V512 [航空宇航科学与技术—航空宇航推进理论与工程]
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  • 1江治,李疏芬,李凯,王天放,张钢锤,王华,马喜梅.含纳米金属粉的推进剂点火实验及燃烧性能研究[J].固体火箭技术,2004,27(2):117-120. 被引量:27
  • 2张炎清,赵子华.底部排气弹底排装置点火过程对距离散布的影响[J].弹道学报,1994,6(1):53-56. 被引量:13
  • 3赵兴海,高杨,程永生.激光点火技术综述[J].激光技术,2007,31(3):306-310. 被引量:25
  • 4Williams F A. Theory of propellant ignition by heterogeneous reaction [R]. AIAA J1966,4:1354 -1357.
  • 5Price E W,Bradley Jr H H, Dehority G L, et al. Theory of ignition of solid propellants[ R]. AIAA J 1966,4 : 1153 - 1181.
  • 6Baer S D,Ryan N W. An approximate but complete model for the ignition response of solid propellants[ R]. AIAA J 1968,6 : 872 - 877.
  • 7Kulkarni A K,Kumar M,Kuo K K. Review of solid propellant ignition studies[ R ]. AIAA J 1982,20 : 243 - 244.
  • 8Waldman C H,Summerfield M. Theory of propellant ignition by heterogeneous reaction[ R]. AIAA J 1969,7 : 1359 - 1361.
  • 9Bradley Jr H H. Theory of ignition of a reactive solid by constant energy flux [ J ]. Combustion Science and Technology, 1970,2 : 11 - 20.
  • 10Bradley Jr H H, Williams F A. Theory of radiant and hypergolie ignition of solid propellant[ J ]. Combustion Science and Technology, 1970,2:41 -52.

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