Ventilation Structure Improvement of Large Motors Using 3-D Multi-Physical Coupled-Field Finite-Element Analysis

机译：使用3-D多物理耦合场有限元分析的大电动机通风结构改进

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This paper investigates a 3-D coupled-field finite-element method (FEM) used in simulation of temperature distribution in air-cooled asynchronous induction motor. The temperature rise in motor is due to Joule's losses in stator windings and the induced eddy current in squirrel cages, and heat dissipation by air convection and solid conduction. The Joule's losses calculated by 3-D eddy- current field analysis are used as the input for the thermal field analysis, which is deeply dependent on accurate air fluid field analysis. A novel multi-component fluid model is proposed to deal with the influence of rotor rotation upon the air convection. Through the coupled-field calculation, we propose a new ventilation structure of a 15-phase motor to improve the cooling performance.

机译：本文研究了一种用于气冷异步感应电动机温度分布模拟的3-D耦合场有限元方法（FEM）。电动机的温度升高是由于焦耳的定子绕组损失和鼠笼中的诱导涡流，以及空气对流和固体传导的散热。通过3-D涡流场分析计算的焦耳的损失用作热场分析的输入，这非常依赖于精确的空气流体场分析。提出了一种新型多组分流体模型来处理转子旋转对空气对流时的影响。通过耦合场计算，我们提出了一个新的15相电机的新通风结构，以提高冷却性能。

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《International Conference on Electromagnetic Field Problems and Applications》|2012年||共4页
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Zhang Yujiao; Sun Mengyun; Ruan Jiangjun; Huang Tao;
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中图分类 TM15-53;
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2. Calculation of Temperature Rise in Air-cooled Induction Motors Through 3-D Coupled Electromagnetic Fluid-Dynamical and Thermal Finite-Element Analysis [J] . Zhang Y., Ruan J., Huang T., Magnetics, IEEE Transactions on . 2012,第2期

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Ventilation Structure Improvement of Large Motors Using 3-D Multi-Physical Coupled-Field Finite-Element Analysis

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