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The recent development of protection coordination schemes based on inverse of AC microgrid: A review
Alasali, Feras Mustafa, Haytham Saidi, Abdelaziz Salah El‐Naily, Naser Abeid, Salima Holderbaum, William Omran, Emad Saad, Saad M.
Alasali, Feras
Mustafa, Haytham
Saidi, Abdelaziz Salah
El‐Naily, Naser
Abeid, Salima
Holderbaum, William
Omran, Emad
Saad, Saad M.
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Other Contributors
EPub Date
Publication Date
2023-12-06
Submitted Date
2023-09-20
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Abstract
Integration of distributed generation systems and diversity of microgrid operations led to a change in the structure of the power system. Due to this conversion, new challenges have arisen when employing traditional overcurrent protection schemes. As a consequence, non‐classical protection schemes have attracted significant attention in the last few years. Engineers and scholars have proposed different non‐standard methods to increase the power protection system and ensure the highly selectivity performance. Although the non‐standard characteristics and their requirements, in general, have been outlined and analyzed in the available literature, protection coordination based on voltage current–time inverse, as a branch of non‐standard optimization methods, has not yet been thoroughly discussed, compared, or debated in detail. To close this gap, this review introduces a broad overview of recent research and developments of the voltage current–time inverse based protection coordination. Focuses on assessing the potential advantages and disadvantages of related studies and provide a classification and analysis of these studies. The future trends and some recommendations have been included in this review for improving fault detection sensitivity and coordination reliability.
Citation
Alasali, F., Mustafa, H., Saidi, A. S., El‐Naily, N., Abeid, S., Holderbaum, W., Omran, E., & Saad, S. M. (2024). The recent development of protection coordination schemes based on inverse of AC microgrid: A review. IET Generation, Transmission & Distribution, 18(1), 1-23. https://doi.org/10.1049/gtd2.13074
Publisher
Wiley
Institution of Engineering and Technology
Institution of Engineering and Technology
Journal
IET Generation, Transmission & Distribution
Research Unit
DOI
10.1049/gtd2.13074
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PubMed Central ID
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Article
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© 2023 The Authors. IET Generation, Transmission & Distribution published by John Wiley & Sons Ltd on behalf of The Institution of Engineering and Technology.
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ISSN
1751-8687
EISSN
1751-8695
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