Journal of Propulsion Technology ›› 1999, Vol. 20 ›› Issue (1): 19-22.
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Published:
刘卫东,王振国,周进
基金资助:
Abstract: Three dimensional Navier Stokes equations and two phase fluid model which considered the liquid propellant spray as continuous phase were employed to describe the gas/liquid turbulent flow in the thrust chamber of liquid rocket engine.The mass transfer between the two phases was calculated by the droplet evaporation model and the chemical reaction rate was given by the Arrhenius model.The equations were solved using SIMPLER and IPSA algorithm with the detail distribution of gas parameters obtained.The results show that the oxygen evaporates very fast and the decisive factor of the combustion rate is the mixing process of the propellants.
Key words: Hydrogen oxygen engine;Two phase combustion;Combustion chemical kinetics;Combustion physics;Numerical simulation
摘要: 用三维湍流N-S方程及拟流体模型描述液体火箭发动机内部喷雾两相燃烧流动过程,两相之间的质量交换采用蒸发模型计算,气相化学反应速率采用Arrhenius公式计算。采用SIMPLER与IPSA算法求解两相控制方程并对氢氧发动机燃烧流动过程进行了三维数值分析,得到了发动机推力室内燃气参数的详细分布情况。结果表明对氢氧发动机而言,蒸发过程非常快,推进剂混合过程是燃烧过程的决定因素。
关键词: 氢氧发动机;两相燃烧;燃烧化学动力学;燃烧物理学;数值仿真
刘卫东,王振国,周进. 液氢/液氧火箭发动机喷雾燃烧过程三维数值模拟[J]. 推进技术, 1999, 20(1): 19-22.
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