Numerical calculation of the radiation heat transfer between rocket motor nozzle's wall and gas

机译：火箭发动机喷嘴壁与气体之间辐射传热的数值计算

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The heat flux density of radiation heat transfer between rocket motor nozzle's wall and gas is one of the most important factors to decide temperature of nozzle's wall. It also provides an invaluable references advice for choosing the material of wall and type of cooling. The numerical calculation based on finite volume method is introduced in the paper. After analysis of the formula of FVM without the influence of scattering, a formula that is used to let spectral radiant intensity that is the calculation of FVM be converted into heat flux density of radiation heat transfer is deduced. It is compiled that the program based on FVM is used to calculate the heat flux density. At the end, the heat flux density of radiation heat transfer of 3D model of double-arc nozzle's wall is calculated under different condition, then simply analysis cooling system is performed.

机译：火箭发动机喷嘴壁与气体之间的辐射热传递的热通量密度是决定喷嘴壁温度的最重要因素之一。它还为选择壁的材料和冷却类型提供了宝贵的参考建议。介绍了基于有限体积法的数值计算方法。分析了不受散射影响的FVM公式后，推导了一个公式，该公式用于将计算FVM的光谱辐射强度转换为辐射传热的热通量密度。编译了基于FVM的程序来计算热通量密度。最后，计算了在不同条件下双弧喷嘴壁3D模型辐射传热的热通量密度，并对冷却系统进行了简单分析。

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《International symposium on optoelectronic technology and application》|2014年|93000H.1-93000H.7|共7页
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Yipeng ZHOU; Dingqiang ZHU;
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Finite volume method; Radiation heat transfer; Rocket motor nozzle;

机译：有限体积法辐射传热;火箭发动机喷嘴;

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Numerical calculation of the radiation heat transfer between rocket motor nozzle's wall and gas

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