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较低电场湍流边界层分离磁流体力学控制

丁明松许勇江涛刘庆宗李鹏

航空学报2026，Vol.47Issue(6)：17-35,19.

航空学报2026，Vol.47Issue(6)：17-35,19.DOI:10.7527/S1000-6893.2025.32481

较低电场湍流边界层分离磁流体力学控制

Magnetohydrodynamics control of turbulent boundary layer separation with low electric field

丁明松 ¹许勇 ¹江涛 ¹刘庆宗 ²李鹏¹

作者信息

1. 空天飞行空气动力科学与技术全国重点实验室,绵阳 621000||中国空气动力研究与发展中心计算空气动力研究所,绵阳 621000
2. 中国空气动力研究与发展中心计算空气动力研究所,绵阳 621000
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摘要

Abstract

Boundary layer separation Magnetohydrodynamics(MHD)control of high applied electric field and electro-magnetic energy requirements is one of the difficulties in practical engineering.A coupled computational method of hy-personic turbulence and electromagnetic field considering various physical effects is established by solving the govern-ing equations of flow with electromagnetic source term,Poisson equation of electric potential,integral equation of magnetic vector,and turbulence equation considering electromagnetic dissipation.The local electromagnetic flow con-trol of turbulent boundary layer separation in typical inlet under low applied electric field is systematically studied.The influence mechanism of Lorentz force and current Joule heat on separated flow is emphatically analyzed,and the MHD control law and electromagnetic energy variation characteristics under different applied magnetic field,applied electric field and gas conductivity conditions are obtained.The results show that at low applied electric field,local MHD control can effectively suppress turbulent boundary layer separation in the inlet,and the maximum separation area can be reduced by around 85%.Lorentz force dominates local MHD control,while Joule heat dissipation weakens electro-magnetic control effect.The influence of turbulent pulsation electromagnetic dissipation is small and can be almost ig-nored.The influence characteristics of applied magnetic field,gas conductivity or applied electric field on electromag-netic energy are significantly different.On the premise of satisfying engineering constraints and MHD control effect,it is suggested to choose the scheme with relatively large external magnetic field,relatively high conductivity and rela-tively low external electric field.

关键词

磁流体力学/边界层分离/湍流/电磁耗散/进气道

Key words

magnetohydrodynamics/boundary layer separation/turbulence/electromagnetic dissipation/inlet duct

分类

航空航天

引用本文复制引用

丁明松,许勇,江涛,刘庆宗,李鹏..较低电场湍流边界层分离磁流体力学控制[J].航空学报,2026,47(6):17-35,19.

基金项目

国家数值风洞(NNW)工程 National Numerical Windtunnel(NNW)Project （NNW）

航空学报

ISSN：1000-6893

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