Fault Effect Analysis Based on Elements Loadability to Evaluate Reliability in Power Systems

This paper presents a fault effect analysis (FEA) based on element loadability as a complement tool to evaluate reliability and identify vulnerable points in power systems. The steps of the method are the calculation of overloaded elements after contingencies, determination of the FEA based on eleme...

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Veröffentlicht in:	Revista IEEE América Latina 2018-10, Vol.16 (10), p.2649-2656
Hauptverfasser:	Bleidy H Mantilla Florez, Silva Ortega, Jorge Ivan, Candelo Becerra, John Edwin
Format:	Artikel
Sprache:	eng
Schlagworte:	Contingency Electric power distribution Elements loadability Energy not supplied Energy transmission Fault effect analysis Finite element method IEEE transactions Mathematical analysis Overloaded elements Power lines Power system reliability Power systems Reliability Reliability analysis Silicon Silicon compounds System reliability Transmission and distribution power systems
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creator	Bleidy H Mantilla Florez Silva Ortega, Jorge Ivan Candelo Becerra, John Edwin
description	This paper presents a fault effect analysis (FEA) based on element loadability as a complement tool to evaluate reliability and identify vulnerable points in power systems. The steps of the method are the calculation of overloaded elements after contingencies, determination of the FEA based on element loadability, selection of critical overloaded elements, and evaluation of system reliability by considering the energy not supplied (ENS). A simplified transmission and distribution (T and D) power system with 30 nodes was used as study case for the method. The results show that the loadability percentage of transformers and power lines are calculated successfully for the N-1 contingency analysis performed in the network and the method selects the elements with higher loadability values, evaluating the impact that each critical contingency generates on the power system reliability. The method can be used to prioritize remedial actions for critical elements on power systems.
doi_str_mv	10.1109/TLA.2018.8795146
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The steps of the method are the calculation of overloaded elements after contingencies, determination of the FEA based on element loadability, selection of critical overloaded elements, and evaluation of system reliability by considering the energy not supplied (ENS). A simplified transmission and distribution (T and D) power system with 30 nodes was used as study case for the method. The results show that the loadability percentage of transformers and power lines are calculated successfully for the N-1 contingency analysis performed in the network and the method selects the elements with higher loadability values, evaluating the impact that each critical contingency generates on the power system reliability. 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The steps of the method are the calculation of overloaded elements after contingencies, determination of the FEA based on element loadability, selection of critical overloaded elements, and evaluation of system reliability by considering the energy not supplied (ENS). A simplified transmission and distribution (T and D) power system with 30 nodes was used as study case for the method. The results show that the loadability percentage of transformers and power lines are calculated successfully for the N-1 contingency analysis performed in the network and the method selects the elements with higher loadability values, evaluating the impact that each critical contingency generates on the power system reliability. The method can be used to prioritize remedial actions for critical elements on power systems.</abstract><cop>Los Alamitos</cop><pub>IEEE</pub><doi>10.1109/TLA.2018.8795146</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Contingency Electric power distribution Elements loadability Energy not supplied Energy transmission Fault effect analysis Finite element method IEEE transactions Mathematical analysis Overloaded elements Power lines Power system reliability Power systems Reliability Reliability analysis Silicon Silicon compounds System reliability Transmission and distribution power systems
title	Fault Effect Analysis Based on Elements Loadability to Evaluate Reliability in Power Systems
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