Dongjian Su, Qingwei An, Shao Xue, Hao Wang, Ruyi Tao
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引用次数: 0
摘要
脉冲推进器具有结构简单、响应速度快等优点。它常用于飞机和空间飞行器的姿态调整和轨道控制。为了研究内弹道变化规律和火药气体的流动特性,通过数值模拟和实验验证,对 L 型脉冲推进器的内部工作过程进行了研究。首先,设计并进行了内弹道试验,测量了推力和压力随时间的变化过程,验证了脉冲推进器设计的可行性和合理性。其次,建立了包括点火过程在内的 L 型脉冲推进器三维内弹道模型。借助 Fluent 软件中的动态网格技术和用户自定义函数的二次开发能力,实现了推进剂燃烧与火药气体内部流场变化的耦合过程。计算结果与试验数据吻合良好。最后,详细分析了流场中压力和速度的分布,研究了推力特性随喷管长度和膨胀比的变化规律,为进一步优化设计研究提供了重要数据。本文的研究成果可为推进 L 型脉冲推进器内弹道变化规律的研究提供技术手段。
Experiment and numerical investigation on internal ballistic characteristics of L-type impulse thruster
The impulse thruster exhibits the advantages of the simplistic structure and rapid response speed. It is often used for the attitude adjustment and orbit control of the aircraft and space vehicle. In order to study the internal ballistic variation law and the flow characteristics of the gunpowder gas, the interior working process of the L-type impulse thruster was investigated by the numerical simulation and experimental verification. First, an internal ballistic test was designed and conducted, and the change process of the thrust and pressure over time was measured, and the feasibility and rationality of the impulse thruster design were verified. Second, a three-dimensional internal ballistic model of the L-type impulse thruster including the ignition process was established. With the help of the dynamic mesh technology and secondary development capability of the user-defined function in the software Fluent, the coupling process of the propellant combustion and internal flow field change of the gunpowder gas was realized. The calculated results were in good agreement with the test data. Finally, the distribution of the pressure and velocity in the flow field was analyzed in detail, and the variation law of the thrust characteristics with the nozzle length and the expansion ratio was studied, which could provide the essential data for further optimization design research. The outcomes from this paper can offer technical means for advancing studies on the internal ballistic changing law of the L-type impulse thruster.
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