Experimental and numerical analysis of the heat flux characteristic of the plume of a 120-N thruster 被引量：3

Experimental and numerical analysis of the heat flux characteristic of the plume of a 120-N thruster

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摘要 The convective heat transfer of the plume of a 120-N thruster is investigated experimentally and numerically. Numerical results agree well with experimental results in that there is a nonlinear decrease in convective heat transfer with an increasing cone angle. It is also found that convective heat transfer decreases with increasing distance from the thruster outlet. Furthermore, the convective heat transfer of the plume mainly concentrates within a 35° cone angle and the heat flux decreases to the same order as solar radiation at the Earth’s surface when the cone angle exceeds 60°. The results of the study will help improve spacecraft design. The convective heat transfer of the plume of a 120-N thruster is investigated experimentally and numerically. Numerical results agree well with experimental results in that there is a nonlinear decrease in convective heat transfer with an increasing cone angle. It is also found that convective heat transfer decreases with increasing distance from the thruster outlet. Furthermore, the convective heat transfer of the plume mainly concentrates within a 35° cone angle and the heat flux decreases to the same order as solar radiation at the Earth’s surface when the cone angle exceeds 60°. The results of the study will help improve spacecraft design.

作者 ZHANG MingXing CAI GuoBiao HE BiJiao TANG ZhenYu ZHOU Hao

机构地区 Beijing Institute of Space Long March Vehicle School of Astronautics Beijing Institute of Spacecraft Environment Engineering

出处《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2019年第10期1854-1860,共7页 中国科学（技术科学英文版）

关键词 VACUUM PLUME heat FLUX computational fluid dynamics/direct simulation MONTE Carlo method shock wave vacuum plume heat flux computational fluid dynamics/direct simulation Monte Carlo method shock wave

分类号 V430 [航空宇航科学与技术—航空宇航推进理论与工程]

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