Calibration of the State Space Thermal Model of a Directly Cooled Permanent Magnet Synchronous Machine

2018 XIII International Conference on Electrical Machines (ICEM) Pub Date : 2018-09-01 DOI:10.1109/ICELMACH.2018.8506999

Florian Bimkammmer, J. Mayer, D. Gerling

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引用次数: 1

Abstract

The strive for higher power densities in electrical machines due to spatial and weight specifications implicates the need of enhanced cooling methods to dissipate the loss related heat. An effective approach to meet these demands is cooling the stator winding directly, i.e. the coils are in direct contact with the cooling fluid. In addition, a non-conductive tube installed in the airgap keeps the rotor dry and thus prevents additional churning or eddy current losses. This paper focuses on thermal aspects of such a directly cooled permanent magnet synchronous machine. Therefore, a lumped parameter thermal network in state space representation is derived, offering a real-time capable solution to compute the temperature in the respective machine components. Furthermore, a new methodology for parameter identification is proposed, which exploits the final value theorem for state-space systems to extract the heat transfer coefficients from thermal machine measurements. Both thermal modeling and parameter identification are finally validated by experiment.

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直冷永磁同步电机状态空间热模型的标定

由于空间和重量规格的限制，电机的功率密度越来越高，这意味着需要增强冷却方法来消散与损耗相关的热量。满足这些要求的有效方法是直接冷却定子绕组，即线圈与冷却液直接接触。此外，安装在气隙中的非导电管保持转子干燥，从而防止额外的搅动或涡流损失。本文对直冷式永磁同步电机的热特性进行了研究。因此，导出了状态空间表示的集总参数热网络，提供了能够实时计算各机器部件温度的解决方案。此外，提出了一种新的参数辨识方法，利用状态空间系统的终值定理从热机测量数据中提取传热系数。最后通过实验验证了热建模和参数辨识的正确性。

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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2018 XIII International Conference on Electrical Machines (ICEM)

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