Reliability Assessment of a Power System Incorporating Wind and Solar Farms

Reliability of electrical supply is one of the most important factors to be maintained in the supply demand chain of electrical energy. In this paper, reliability indices are evaluated using probabilistic approach that is based on probability theory that considers the likeliness of occurrence of an...

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Published in	Journal of the Institution of Engineers (India). Series B, Electrical Engineering, Electronics and telecommunication engineering, Computer engineering Vol. 105; no. 1; pp. 165 - 174
Main Authors	Ballireddy, Tulasi Ramakrishna Rao, Ray, Papia
Format	Journal Article
Language	English
Published	New Delhi Springer India 01.02.2024 Springer Nature B.V
Subjects	Communications Engineering Electric power demand Engineering Networks Original Contribution Peak load Probability theory Reliability analysis Renewable energy sources Solar power generation Statistical analysis LOEE Reliability COPT LOLE EIR
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Abstract	Reliability of electrical supply is one of the most important factors to be maintained in the supply demand chain of electrical energy. In this paper, reliability indices are evaluated using probabilistic approach that is based on probability theory that considers the likeliness of occurrence of an event. This approach considers stochastic nature of the scheme, demand or failure of the components, and the solution is based on the similarity of the available data. The reliability assessment is based on the evaluation of the reliability indices, namely Loss of Load Expectation, Loss of Energy Expectation and Energy Index Reliability, are evaluated for a power system with and without integration of renewable sources (wind and solar) and generation indicated by Capacity Outage Probability Table. In this paper, the effect of peak demand on the system’s reliability in the presence of renewable energy sources is determined. The reliability indices are found using MATLAB R2017a, and it is observed that incorporating non-conventional sources into the existing power system improves system's reliability.
AbstractList	Reliability of electrical supply is one of the most important factors to be maintained in the supply demand chain of electrical energy. In this paper, reliability indices are evaluated using probabilistic approach that is based on probability theory that considers the likeliness of occurrence of an event. This approach considers stochastic nature of the scheme, demand or failure of the components, and the solution is based on the similarity of the available data. The reliability assessment is based on the evaluation of the reliability indices, namely Loss of Load Expectation, Loss of Energy Expectation and Energy Index Reliability, are evaluated for a power system with and without integration of renewable sources (wind and solar) and generation indicated by Capacity Outage Probability Table. In this paper, the effect of peak demand on the system’s reliability in the presence of renewable energy sources is determined. The reliability indices are found using MATLAB R2017a, and it is observed that incorporating non-conventional sources into the existing power system improves system's reliability.
Author	Ray, Papia Ballireddy, Tulasi Ramakrishna Rao
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Cites_doi	10.1109/TENCON50793.2020.9293700 10.1109/ICIT.2017.7913275 10.1007/s40030-019-00419-2 10.1007/978-1-4899-1860-4 10.1002/we.2335 10.1109/PowerAfrica49420.2020.9219822 10.1109/EPEC.2014.29 10.1049/cp.2019.0213 10.1049/iet-gtd.2019.1402 10.1109/ECTICon.2018.8619932 10.1109/ICPCES.2012.6508062 10.1109/PESGM.2012.6345546 10.1109/ICFIR.2019.8894781 10.1016/S0360-5442(96)00146-6 10.1109/60.969477 10.1063/1.5119244 10.35940/ijrte.d8034.118419 10.1109/TEC.2006.882415 10.2298/FUEE2102219P 10.1016/j.jksues.2011.07.002 10.1016/j.epsr.2018.11.001
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SubjectTerms	Communications Engineering Electric power demand Engineering Networks Original Contribution Peak load Probability theory Reliability analysis Renewable energy sources Solar power generation Statistical analysis
Title	Reliability Assessment of a Power System Incorporating Wind and Solar Farms
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