旋转固体发动机燃烧室燃气湍流流动数值模拟

推进技术 ›› 1999, Vol. 20 ›› Issue (6): 23-27.

旋转固体发动机燃烧室燃气湍流流动数值模拟

高波,叶定友,侯晓

陕西动力机械研究所!西安;710025;陕西动力机械研究所!西安;710025;陕西动力机械研究所!西安;710025

发布日期:2021-08-15

NUMERICAL SIMULATION OF TURBULENT FLOW IN THE COMBUSTION CHAMBER OF A SPINNING SOLID ROCKET MOTOR

Shaanxi Inst.of Power Machinery,Xi′an,710025;Shaanxi Inst.of Power Machinery,Xi′an,710025;Shaanxi Inst.of Power Machinery,Xi′an,710025

Published:2021-08-15

摘要/Abstract

摘要： 采用贴体坐标系和ＳＩＭＰＬＥ法，对固体发动机在旋转热试车条件下的燃烧室内流场进行了数值模拟。不同燃烧时刻的计算结果表明：旋转对固体发动机燃烧室燃气流动结构的影响随着燃烧肉厚的退移而显著增强；在发动机药柱的前翼燃烧消失后，前封头开口区域的切向涡开始变得强烈；切向涡的分布呈现Ｒａｎｋｉｎｅ涡的特点，在发动机前开口区域涡的固核半径极小，旋转速度极大，这将严重影响该区域的热防护，应引起有关设计人员的高度重视。

关键词: 固体推进剂火箭发动机;旋转固体顶级;燃烧产物;湍流模型;数值仿真

Abstract: Body fitted grid system and SIMPLE method were adopted to numerically simulate chamber internal flow field of solid propellant rocket motor under spinning static firing test condition.The calculated results of every different time show that the effects of spinning on internal flow field of chamber become remarkable along with the regress of burning propellant web. The tangential vortex in the forward opening begins get strong after the forward fins of grain burned out. The distribution of tangential vortex possesses the features of Rankine, but the radius of vortex nucleus in the forward opening is very small, spinning rate of vortex nucleus is very high,these will seriously affect the thermal protection

Key words: Solid propellant rocket engine;Spinning solid upper stage;Combustion product;Turbulence model;Numerical simulation

高波,叶定友,侯晓. 旋转固体发动机燃烧室燃气湍流流动数值模拟[J]. 推进技术, 1999, 20(6): 23-27.