Analysis of Integration Options for A Two-Stage Synchronous Generator

2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET) Pub Date : 2021-01-21 DOI:10.1109/SeFet48154.2021.9375652

Liya Tom, R. Ramanathan, G. Vakil, C. Gerada, A. McQueen

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Abstract

The popularity of synchronous generators over other power generating systems has dramatically increased over the last few decades. They are particularly important for applications that provides smooth excitation control and requires minimum maintenance. Brushless synchronous machines with a separate exciter is a good candidate in such cases, however, having a separate exciter machine introduces thermal difficulties and reduces the compactness of the system. To eliminate such limitations, this paper proposes a solution with a two-stage synchronous generator, where the exciter machine is integrated to the active and passive components of a wound-field synchronous generator. The methods considered and analysed in this work include, keeping the bore diameter identical for both the exciter machine and the main synchronous generator and integrating the exciter machine to a fan with 55 mm and 65 mm length. A more compact machine design with more than 40% reduction in the axial length was achieved, in conjunction with improved thermal management and increased power density.

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两级同步发电机集成方案分析

在过去的几十年里，同步发电机比其他发电系统更受欢迎。它们对于提供平稳励磁控制和需要最少维护的应用尤为重要。在这种情况下，带单独励磁器的无刷同步电机是一个很好的选择，然而，有一个单独的励磁机引入了热困难，并降低了系统的紧凑性。为了消除这种限制，本文提出了一种两级同步发电机的解决方案，其中励磁机与绕组同步发电机的有源和无源组件集成在一起。本文所考虑和分析的方法包括:保持励磁机与主同步发电机的通径相同，以及将励磁机与长度分别为55mm和65mm的风机相结合。更紧凑的机器设计，轴向长度减少了40%以上，同时改进了热管理，提高了功率密度。

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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2021 International Conference on Sustainable Energy and Future Electric Transportation (SEFET)

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