Numerical Simulation of Ignition Transient for Solid Rocket Motors with Large Aspect Ratio

2021 12th International Conference on Mechanical and Aerospace Engineering (ICMAE) Pub Date : 2021-07-16 DOI:10.1109/ICMAE52228.2021.9522550

Yanjie Ma, Mingming Zhan, Futing Bao, Lin Sun, Ran Wei

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Abstract

Despite the short duration, ignition transient plays a very important role in the whole operation of a solid rocket motor. A two-dimensional model is proposed to simulate the ignition transient in solid rocket motors with large aspect ratio. Transient mass flow rate inlet is implemented at the inlet of the flow field to simulate the gas from igniter. The temperature of the propellant surface is computed by conduction heat calculation and then is used as a criterion of ignition. Erosive burning is evaluated with Mukunda model. The regression of the burning face is considered, guaranteeing the simulation of the evolvement of erosive burning as the ignition proceeds. The internal ballistics curve obtained from the model meets the experimental data well. The pressure history shows a different trend from that of the burning perimeter, indicating the remarkable influence of erosive burning on the ignition transient. The model proposed in this paper can be used as a reliable approach to simulation of ignition transient for solid rocket motors with large aspect ratio.

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大展弦比固体火箭发动机点火瞬态数值模拟

点火瞬态虽然持续时间短，但在固体火箭发动机的整个工作过程中起着非常重要的作用。提出了大展弦比固体火箭发动机点火瞬态的二维模型。流场入口采用瞬态质量流量入口来模拟点火器气体。通过热传导计算得到推进剂表面温度，并以此作为点火判据。用Mukunda模型对侵蚀燃烧进行了评价。考虑了燃烧面的回归，保证了对燃烧过程中侵蚀燃烧过程的模拟。模型得到的内弹道曲线与实验数据吻合较好。压力变化趋势与燃烧周长变化趋势不同，表明侵蚀燃烧对点火瞬态有显著影响。该模型可作为大展弦比固体火箭发动机点火瞬态仿真的可靠方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 12th International Conference on Mechanical and Aerospace Engineering (ICMAE)

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