Domain Decomposition Approach for Efficient Time-Domain Finite-Element Computation of Winding Losses in Electrical Machines

Antti Lehikoinen; Jouni Ikäheimo; Antero Arkkio; Anouar Belahcen

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Domain Decomposition Approach for Efficient Time-Domain Finite-Element Computation of Winding Losses in Electrical Machines

机译：电机绕组损耗有效时域有限元计算的域分解方法

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摘要

Finite-element (FE) analysis of winding losses in electrical machines can be computationally uneconomical. Computationally lighter methods often place restrictions on the winding configuration or have been used for time-harmonic problems only. This paper proposes a domain decomposition-type approach for solving this problem. The slots of the machine are modeled by their impulse response functions and coupled together with the rest of the problem. The method places no restrictions on the winding and naturally includes all resistive ac loss components. The method is then evaluated on a 500-kW induction motor. According to the simulations, the method yields precise results 70-100 faster compared with the established FE approach.

机译：电机绕组损耗的有限元（FE）分析在计算上可能不经济。计算上较轻的方法通常会限制绕组的配置，或者仅用于时间谐波问题。本文提出了一种领域分解型方法来解决这一问题。机器的插槽通过其脉冲响应功能进行建模，并与其余问题耦合在一起。该方法对绕组没有限制，自然包括所有电阻性交流损耗成分。然后在500 kW感应电动机上评估该方法。根据仿真，与已建立的有限元方法相比，该方法可更快地获得70-100的精确结果。

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来源
《Magnetics, IEEE Transactions on》 |2017年第5期|1-9|共9页
作者
Antti Lehikoinen; Jouni Ikäheimo; Antero Arkkio; Anouar Belahcen;
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作者单位

Department of Electrical Engineering and Automation, Aalto University, Espoo, Finland;

ABB Oy, Vaasa, Finland;

Department of Electrical Engineering and Automation, Aalto University, Espoo, Finland;

Department of Electrical Engineering and Automation, Aalto University, Espoo, Finland;

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正文语种 eng
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关键词
Windings; Conductors; Finite element analysis; Computational modeling; Proximity effects; Electric potential; Time-domain analysis;

机译：绕组;导体;有限元分析;计算模型;邻近效应;电势;时域分析;

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1. Calculation of Magnet Losses in Concentrated-Winding Permanent-Magnet Synchronous Machines Using a Computationally Efficient Finite-Element Method [J] . Zhang P., Sizov G.Y., He J., IEEE Transactions on Industry Applications . 2013,第6期

机译：用计算有效有限元方法计算集中绕组永磁同步电机的磁损耗
2. A Novel Dual-Field Time-Domain Finite-Element Domain-Decomposition Method for Computational Electromagnetics [J] . Zheng Lou, Jian-Ming Jin IEEE Transactions on Antennas and Propagation . 2006,第6期

机译：计算电磁学的新型双场时域有限元域分解方法
3. An Efficient Mode-Based Domain Decomposition Hybrid 2-D/Q-2D Finite-Element Time-Domain Method for Power/Ground Plate-Pair Analysis [J] . Ping Li, Li Jun Jiang, Yao Jiang Zhang, IEEE Transactions on Microwave Theory and Techniques . 2018,第10期

机译：功率/接地板对分析的基于模式的高效域分解混合二维/ Q-2D有限元时域方法
4. Finite-element domain decomposition using an iterative approach: computation of mutual coupling [C] . Polycarpou, A.C., Balanis, . 2000

机译：使用迭代方法的有限域分解：相互耦合的计算
5. Winding Losses in High-Speed Machines using Form-Wound Windings. [D] . Zhang, Wanjun. 2015

机译：使用绕制绕组的高速电机中的绕组损耗。
6. Winding Tensor Approach for the Analytical Computation of the Inductance Matrix in Eccentric Induction Machines [O] . Javier Martinez-Roman, Ruben Puche-Panadero, Angel Sapena-Bano, 2020

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7. Domain Decomposition Approach for Efficient Time-Domain Finite-Element Computation of Winding Losses in Electrical Machines [O] . Lehikoinen, Antti, Ikaheimo, Jouni, Arkkio, Antero, 2017

机译：电机绕组损耗有效时域有限元计算的域分解方法
8. Simple and Efficient Computational Approach to Chafed Cable Time-Domain Reflectometry Signature Prediction [R] . Kowalski, M. E. 2009

机译：简单有效的计算方法研究Chafed Cable时域反射仪特征预测

Domain Decomposition Approach for Efficient Time-Domain Finite-Element Computation of Winding Losses in Electrical Machines

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