评估在具有宽恒定功率速度范围的牵引传动装置中使用同步均极电机代替感应电机的可行性

IF 5.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Vladimir Prakht;Vladimir Dmitrievskii;Vadim Kazakbaev;Eduard Valeev;Aleksey Paramonov;Alecksey Anuchin
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引用次数: 0

摘要

同步同极性机器(SHMs)在脉冲加热发电机和汽车发电机等各种应用中都有不俗的表现。它们具有转子设计简单可靠、无绕组和永久磁铁、定子上由少量集中线圈组成的可靠磁场绕组等优点。这使得 SHM 很有希望成为非公路车辆(如采矿倾卸卡车)的牵引电机。矿用自卸卡车面临着在泥土路上以最高 60 km/h 的速度运输重型货物以及征服陡峭斜坡的挑战。虽然传统的感应电机(IM)被广泛应用于这些卡车中,但它们存在转子过热、转子杆容易断裂以及在斜坡上制动时出现大量低频电流振荡等问题。这些问题促使人们寻找替代品。本文对用于驱动有效载荷为 90 吨的矿用自卸卡车的 IM 和 SHM 优化设计进行了理论分析比较。比较包括效率、损耗、扭矩纹波、所需逆变器功率、尺寸、重量、活性材料成本和逆变器可靠性等关键参数。研究采用下坡单纯形法和有限元法进行优化。研究表明,SHM 的优点包括降低有源材料成本、提高电机和变频器的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of the Feasibility of Using a Synchronous Homopolar Motor Instead of an Induction Motor in a Traction Drive With a Wide Constant Power Speed Range
Synchronous homopolar machines (SHMs) have established their merit in various applications, including pulse heating generators and automotive generators. They offer such advantages as a simple and dependable rotor design devoid of windings and permanent magnets, and a reliable field winding consisting of a small number of concentrated coils on the stator. This makes SHMs promising as traction motors for off-highway vehicles, such as mining dump trucks. Mining dump trucks confront the challenges of transporting hefty loads on dirt roads at speeds up to 60 km/h and conquering steep inclines. Although conventional induction motors (IMs) are widely used in these trucks, they suffer from rotor overheating, vulnerability to broken rotor bar faults, and substantial low-frequency current oscillations when braking on a slope. These problems stimulate the search for alternatives. This article conducts a theoretical analysis comparing optimized designs of IM and SHM for driving a mining dump truck with a payload of 90 tons. The comparison encompasses critical parameters such as efficiency, losses, torque ripple, required inverter power, dimensions, weight, active material cost, and inverter reliability. The study employs the downhill simplex method for optimization and the finite element method. The study shows that the benefits of SHM include reduced active material costs and improved motor and inverter reliability.
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来源期刊
CiteScore
9.60
自引率
0.00%
发文量
25
审稿时长
10 weeks
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