Stability Analysis and Improvement of Power Systems

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Scientific Journal of Control Engineering

Scientific Journal of Control Engineering (SJCE) is an international open access journal, concerning about the latest research results of control engineering. The goal of the journal is to provide a global forum for scholars and researchers in this field to exchange ideas and promote the development of the theory, application and operation in all areas of control engineering.The journal receives manuscripts written in Chinese or Engli... [More] Scientific Journal of Control Engineering (SJCE) is an international open access journal, concerning about the latest research results of control engineering. The goal of the journal is to provide a global forum for scholars and researchers in this field to exchange ideas and promote the development of the theory, application and operation in all areas of control engineering.

The journal receives manuscripts written in Chinese or English. As for Chinese papers, the following items in English are indispensible parts of the paper: paper title, author(s), author(s)'affiliation(s),abstract and keywords. If this is the first time you contribute an article to the journal, please format your manuscript as per the sample paper and then submit it into the online submission system.Accepted papers will immediately appear online followed by printed hard copies by Ivy Publisher globally. Therefore, the contributions should not be related to secret. The author takes sole responsibility for his views.

ISSN Print:2167-0196

ISSN Online:2167-020X

Email:sjce@ivypub.org

Website: http://www.ivypub.org/sjce

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Paper Infomation

Stability Analysis and Improvement of Power Systems

Full Text(PDF, 53KB)

Author: Jinrui Deng

Abstract: Power system stability is essential for the reliable operation of electrical grids, especially with the increasing integration of renewable energy sources. This paper reviews the types of power system stability—transient, dynamic, voltage, and frequency stability—and explores the challenges posed by renewable energy, such as intermittency and the lack of inertia. The paper also discusses strategies for improving stability, including advanced control techniques, energy storage systems (ESS), demand response, and grid optimization. The integration of these technologies is critical to maintaining grid stability as power systems evolve with greater renewable penetration.

Keywords: Power System Stability, Renewable Energy, Transient Stability, Dynamic Stability, Voltage Stability, Frequency Stability, Smart Grids

References:

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