基于高温气体效应的磁流体流动控制研究进展1)
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罗凯, 汪球, 李逸翔, 李进平, 赵伟
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RESEARCH PROGRESS ON MAGNETOHYDRODYNAMIC FLOW CONTROL UNDER TEST CONDITIONS WITH HIGH TEMPERATURE REAL GAS EFFECT1)
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Luo Kai, Wang Qiu, Li Yixiang, Li Jinping, Zhao Wei
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图4 文献[36]采用的电磁体模型: (a)电磁铁模型; (b)通电电流为1000 A时, 驻点线磁场强度分布, 最大表磁2.8 T; (c) 通电电流为1000 A时, 不同剖面上磁场强度$B_x$沿径向分布
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Fig.4 Electromagnet model used by Ref.[36]: (a) Cross section of the electromagnet model configurations; (b) measured axial profile of magnetic-induction axial component $B_x$ at a coil current of 1000 A, the maximum intensity of surface magnet is 2.8 T; (c) measured radial profile of magnetic-induction axial component $B_x$ at a coil current of 1000 A
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