Performance of Synchronous Reluctance Generators with Series and Shunt Stator Connections

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical and Computer Engineering Systems Pub Date : 2023-06-05 DOI:10.32985/ijeces.14.5.10

Pauline Ijeoma Obe, Lilian Livutse Amuhaya, Emeka Simon Obe, Adamu Murtala Zungeru

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Abstract

This paper reports the performance of series- and shunt-connected self-excited reluctance generators (SERG). In addition to the two stator connections, an analysis was carried out on rotor configurations (with and without a cage) a combination resulting in four different generator topologies. The loss of load and transient characteristics of each generator configuration were studied for a combination of pure resistive and R-L loads. It is shown that for the same machine size, speed and exciting capacitor value, the generator with a cage preserves a better wave shape following a transient disturbance than the cageless machine. At unity power factor, shunt generator with cage can deliver 0.691pu output power, at 1.97% regulation; its series counterpart only delivers 0.589 pu at 2.05%. The study demonstrates that while shunt generators have better regulation and supports higher loads at different power factors, series generators show a superior performance in terms of damping out transients.

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串联和并联定子连接的同步磁阻发电机的性能

本文报道了串联和并联自激磁阻发电机(SERG)的性能。除了两个定子连接外，还对转子配置(带和不带保持架)进行了分析，从而产生了四种不同的发电机拓扑结构。研究了纯阻性负载和R-L负载组合时各发电机配置的负载损耗和暂态特性。结果表明，在相同的电机尺寸、转速和励磁电容值下，有笼型发电机比无笼型发电机在瞬态扰动后保持了更好的波形。在单位功率因数下，带保持架的并联发电机输出功率为0.691pu，调节率为1.97%;它的系列产品仅以2.05%的速度提供0.589 pu。研究表明，并联发电机在不同功率因数下具有更好的调节性能和支持更高的负载，串联发电机在阻尼暂态方面表现出更优的性能。

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来源期刊

International Journal of Electrical and Computer Engineering Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.20

自引率

11.80%

发文量

期刊介绍： The International Journal of Electrical and Computer Engineering Systems publishes original research in the form of full papers, case studies, reviews and surveys. It covers theory and application of electrical and computer engineering, synergy of computer systems and computational methods with electrical and electronic systems, as well as interdisciplinary research. Power systems Renewable electricity production Power electronics Electrical drives Industrial electronics Communication systems Advanced modulation techniques RFID devices and systems Signal and data processing Image processing Multimedia systems Microelectronics Instrumentation and measurement Control systems Robotics Modeling and simulation Modern computer architectures Computer networks Embedded systems High-performance computing Engineering education Parallel and distributed computer systems Human-computer systems Intelligent systems Multi-agent and holonic systems Real-time systems Software engineering Internet and web applications and systems Applications of computer systems in engineering and related disciplines Mathematical models of engineering systems Engineering management.

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