An Alternative Run-Up Strategy for Salient Pole Wound Field Synchronous Machines

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2024-01-10 DOI:10.1109/OJIA.2024.3352134
Roberto Felicetti;Vinícius M. de Albuquerque;Urban Lundin
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Abstract

Salient pole wound field synchronous motors find many industrial applications, thanks to their favorable characteristics: reactive power regulation, stiff mechanical characteristic, and overall outstanding efficiency. Nevertheless, their competitiveness toward the induction motors, especially for medium and small power sizes, depends crucially on their capability to be asynchronously started as well. Regrettably, the asynchronous run-up of a synchronous motor can be sometimes very problematic because of thermal issues, torsional vibrations, and grid voltage disturbances. This article presents an alternative method of starting salient pole wound field synchronous machines by activating the field winding in a special manner, which makes it possible to mitigate the three problems at once. The suggested method is validated through a two-dimensional finite elements simulation and by starting a 60-kVA prototype generator. The requirements for the application of the proposed run-up strategy are critically discussed together with related pros and cons.
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尖极绕线式同步电机的另一种起动策略
由于具有无功功率调节、坚固的机械特性和出色的整体效率等有利特性,尖极绕线式同步电机在工业领域得到了广泛应用。然而,与感应电动机相比,它们的竞争力,尤其是在中小功率方面的竞争力,主要取决于它们的异步启动能力。遗憾的是,由于热问题、扭转振动和电网电压干扰,同步电机的异步启动有时会很成问题。本文提出了另一种方法,通过以特殊方式激活绕组来启动斜极绕组同步电机,从而可以同时缓解这三个问题。通过二维有限元仿真和启动一台 60 千伏安的原型发电机,对所建议的方法进行了验证。对应用所建议的启动策略的要求以及相关利弊进行了批判性讨论。
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