动车组鼠笼式异步电动机定子、转子优化设计

Journal of Mechatronics Electrical Power and Vehicular Technology Pub Date : 2023-07-31 DOI:10.14203/j.mev.2023.v14.35-46

Hilda Luthfiyah, Okghi Adam Qowiy, Arga Iman Malakani, Dwi Handoko Arthanto, Fauzi Dwi Setiawan, Teddy Anugrah Ramanel, Gilang Mantara Putra, Syamsul Kamar, Asep Andi Suryandi

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引用次数: 0

摘要

本文旨在客观地计算用于动车组(EMU)列车的480kw鼠笼式感应电动机(SCIM)设计。这是通过优化定子槽和转子槽的设计来实现的，以获得效率和功率因数目标。定子槽设计是通过在规定的范围内限制定子槽距的宽度和高度来实现的。根据范围，采用深宽比对转子棒槽进行优化设计。感应电机的设计过程包括三个步骤:确定感应电机的规格设计目标，计算感应电机的指定参数，并利用ANSYS Maxwell对设计进行仿真，以获得最优的电机设计。仿真性能值为效率为92.547%，功率因数为0.915。该值是通过转子槽的优化得到的，满足了设计SCIM时对效率和功率因数的最低要求。本文所提出的设计可以在印尼国内的铁路制造业中得到发展和应用。

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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An optimized stator and rotor design of squirrel cage induction motor for EMU train

This paper aims to objectively calculate the 480-kW squirrel cage induction motor (SCIM) design for the electric multiple unit (EMU) trains. This is done by optimizing the stator slot and rotor slot design to get efficiency and power factor targets. The stator slot design is achieved by limiting the width and height of the stator slot pitch according to the specified range. A depth-to-width ratio is used according to the range to optimize the design of the rotor bar slot. The design process of the induction motor consists of three steps: it determines the specification design target, calculates the specified parameters of the induction motor, and simulates the design to obtain the most optimal motor design using ANSYS Maxwell. The simulation performance values obtained an efficiency of 92.547 % and a power factor of 0.915. This value is obtained from the optimization of the rotor slot and has met the minimum requirements of efficiency and power factor in designing a SCIM. The design proposed in this paper can be developed and applied in the Indonesian domestic railway manufacturing industry.

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来源期刊

Journal of Mechatronics Electrical Power and Vehicular Technology

CiteScore

0.70

自引率

0.00%

发文量