Heat transfer of free surface MHD-flow with a wall of non-uniform electrical conductivity

2009 23rd IEEE/NPSS Symposium on Fusion Engineering Pub Date : 2009-06-01 DOI:10.1109/FUSION.2009.5226450

Hulin Huang, Bo Li

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Abstract

The non-uniform electrical conductivity distribution of a channel wall can create alternate Lorentz forces along spanwise direction, which can effectively produce flow disturbance, promote mixture, reduce the thickness of boundary layer, and enhance heat transfer in Magnetohydrodynamic (MHD) flow. So the heat transfer performances enhanced by some conducting strips aligned with the mean flow direction on the insulating wall for a free surface MHD-flow are simulated numerically in this paper. The flow behaviors, heat transfer coefficients, friction factors and pressure drops are presented under different Hartmann numbers. Results show that, in the range of Hartmann numbers 30≤Ha≤100, the wall with nonuniform conductivity can achieve heat transfer enhancements (Nu/Nu0) of about 1.2 to 1.6 relative to the insulating wall with negligible friction rise. The modules with three or five conducting strips can obtain better enhancement effect in this paper. Particularly, the heat transfer coefficient increases monotonically with Hartmann numbers increasing. Therefore, the enhancement purpose for MHD flow at high Hartman number is pronounced.

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具有非均匀导电性壁的自由表面mhd流动的传热

通道壁面电导率的非均匀分布会产生沿展向的交替洛伦兹力，从而在磁流体流动中有效地产生流动扰动，促进混合，减小边界层厚度，增强换热。因此，本文对自由表面mhd流动时，在保温壁上放置与平均流动方向排列一致的导热条对传热性能的影响进行了数值模拟。给出了不同哈特曼数下的流动特性、换热系数、摩擦系数和压降。结果表明，在哈特曼数30≤Ha≤100范围内，非均匀导热壁面相对于保温壁面的换热增强(Nu/Nu0)约为1.2 ~ 1.6，摩擦升高可忽略;采用三导带或五导带的模块可以获得较好的增强效果。传热系数随哈特曼数的增加而单调增加。因此，对高哈特曼数MHD流动的增强目的是明显的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 23rd IEEE/NPSS Symposium on Fusion Engineering

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