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Autores principales: Viththarachchige, Sachinth, Alexander, Demy, Rajendran, Sarangan, Aravinthan, Visvakumar
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2409.08411
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author Viththarachchige, Sachinth
Alexander, Demy
Rajendran, Sarangan
Aravinthan, Visvakumar
author_facet Viththarachchige, Sachinth
Alexander, Demy
Rajendran, Sarangan
Aravinthan, Visvakumar
contents With the increasing frequency of high impact low probability events, electricity markets are experiencing significant price spikes more often. This paper proposes a novel social equity driven optimal power flow framework to mitigate the adverse effects of price events that lead to such price spikes. The framework integrates social welfare optimization with socioeconomic considerations by including a socioeconomic score that quantifies the energy burden and socioeconomic status of consumers. By incorporating both supply cost and consumer satisfaction, the model aims to achieve a balanced and fair distribution of resources during price events, while considering resource scarcity and possible load curtailment. The proposed framework is tested for convergence on modified versions of the PJM 5-bus system and IEEE 24-bus reliability test system, discussing its potential effectiveness in enhancing social equity and optimizing power flow under system security constraints. Sensitivity analysis further highlights the impact of socioeconomic score on social welfare, providing insights for future improvements.
format Preprint
id arxiv_https___arxiv_org_abs_2409_08411
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Social Equity Based Optimal Power Flow Framework to Hedge Against Price Events
Viththarachchige, Sachinth
Alexander, Demy
Rajendran, Sarangan
Aravinthan, Visvakumar
Systems and Control
With the increasing frequency of high impact low probability events, electricity markets are experiencing significant price spikes more often. This paper proposes a novel social equity driven optimal power flow framework to mitigate the adverse effects of price events that lead to such price spikes. The framework integrates social welfare optimization with socioeconomic considerations by including a socioeconomic score that quantifies the energy burden and socioeconomic status of consumers. By incorporating both supply cost and consumer satisfaction, the model aims to achieve a balanced and fair distribution of resources during price events, while considering resource scarcity and possible load curtailment. The proposed framework is tested for convergence on modified versions of the PJM 5-bus system and IEEE 24-bus reliability test system, discussing its potential effectiveness in enhancing social equity and optimizing power flow under system security constraints. Sensitivity analysis further highlights the impact of socioeconomic score on social welfare, providing insights for future improvements.
title Social Equity Based Optimal Power Flow Framework to Hedge Against Price Events
topic Systems and Control
url https://arxiv.org/abs/2409.08411