Improving the Thermal Conductivity of Form-Wound Litz-Wire Windings for Slot-less Machines

T. Balachandran, Shannon Lin, Ciara Ward, K. Haran
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引用次数: 3

Abstract

The power density of electric motors for aircraft propulsion is maximized by optimizing the electrical and magnetic loading and operating at high speed. Maximizing the current density without constraining the speed (and, consequently, the frequency) and the working magnetic field would significantly improve the power density. However, this would increase resistive losses in the winding which need to be removed through heat conduction. Thus, improving the winding thermal conductivity is an essential piece of motor design, especially for slot-less machines. This paper focuses on the comprehensive process of theoretically and experimentally evaluating the equivalent thermal conductivity for Litz-wire configured windings made with a single turn and multiple turns for slot-less permanent magnet synchronous machines. A detailed experimental procedure for various winding designs will be introduced, discussed, and confirmed through a bench test with an assessment of the results. The evaluation and comparison of windings formed with various resins are also performed to demonstrate potential thermal conductivity improvement through appropriate winding design.
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提高无槽机成型绕线线圈的导热性
通过优化电磁载荷和高速运行,使飞机推进用电动机的功率密度达到最大。在不限制速度(以及频率)和工作磁场的情况下最大化电流密度将显著提高功率密度。然而,这将增加绕组中的电阻损耗,需要通过热传导来消除。因此,提高绕组的热导率是电机设计的一个重要部分,特别是对于无槽机器。本文主要研究了无槽永磁同步电机单匝和多匝立茨线绕组等效导热系数的理论和实验综合计算过程。详细的实验程序,各种绕组设计将介绍,讨论,并通过台架测试与结果评估确认。对不同树脂形成的绕组进行了评估和比较,以证明通过适当的绕组设计可以提高潜在的导热性。
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