A Novel Scheme for Switching Between a Self-excited Induction Generator and a Series Connected Self-excited Synchronous Generator

2022 IEEE Industry Applications Society Annual Meeting (IAS) Pub Date : 2022-10-09 DOI:10.1109/IAS54023.2022.9939871

Li Wang, Zhi-Hong Huang, C. Tseng, Min-Fang Lee, Ching-Chung Tseng, A. Prokhorov, H. Mokhlis, K. Chua, M. Tripathy

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引用次数: 1

Abstract

This paper proposes a novel switching scheme to operate an autonomous three-phase wound-rotor induction machine (IM) as two self-excited AC generators. The first generator is a self-excited induction generator (SEIG) with short-circuited Y-connected rotor terminals. The second generator is a series connected self-excited synchronous generator (SCSESG) with Y-connected rotor windings in series with its stator windings in different phase sequence. The three-phase IM model is derived to analyze the performance operated as an SEIG or an SCSESG. To validate the proposed IM model switching between an SEIG and an SCSESG under various loading conditions, the simulated steady-state and transient results are compared with the experimental results obtained from a laboratory 1.1-kW wound-rotor IM. It can be concluded from the simulated and experimental results that the proposed model is adequate to simulate the performance of the IM operated as an SEIG or an SCSESG.

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一种自激感应发电机与串联自激同步发电机切换的新方案

提出了一种新颖的开关方案，使三相自励绕组感应电机作为两台自励交流发电机运行。第一个发电机是自激感应发电机(SEIG)，转子端子短路y型连接。第二台发电机为自励同步发电机(SCSESG)，转子绕组y型串联，定子绕组不同相序。导出了三相IM模型来分析作为SEIG或SCSESG运行的性能。为了验证该模型在不同负载条件下在SEIG和SCSESG之间切换，将仿真稳态和瞬态结果与实验室1.1 kw绕线转子IM的实验结果进行了比较。从模拟和实验结果可以得出结论，所提出的模型足以模拟作为SEIG或SCSESG运行的IM的性能。

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2022 IEEE Industry Applications Society Annual Meeting (IAS)

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