Multi-Objective Optimal Placement of Fault Current Limiter in IEEE RTS 24-Bus System: A Case Study R...
Multi-Objective Optimal Placement of Fault Current Limiter in IEEE RTS 24-Bus System: A Case Study Review
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AVES Yayincilik A.S
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Language
English
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AVES Yayincilik A.S
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By increasing load demands and extending power networks to respond to customers' needs, the complexity and integration of power systems have been boosted, increasing the system's short circuit current level, which may threaten the network's reliability. Over the years, some approaches have been proposed to deal with this issue. Proper examples are...
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Full title
Multi-Objective Optimal Placement of Fault Current Limiter in IEEE RTS 24-Bus System: A Case Study Review
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TN_cdi_doaj_primary_oai_doaj_org_article_e93d60a4b19648b6a9503fdea19cce26
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https://devfeature-collection.sl.nsw.gov.au/record/TN_cdi_doaj_primary_oai_doaj_org_article_e93d60a4b19648b6a9503fdea19cce26
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ISSN
2619-9831
E-ISSN
2619-9831
DOI
10.5152/electrica.2022.22028
