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Main Authors: Amiri, Mohammad Hossein Nejati, Annaz, Fawaz, De Oliveira, Mario, Gueniat, Florimond
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.10278
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author Amiri, Mohammad Hossein Nejati
Annaz, Fawaz
De Oliveira, Mario
Gueniat, Florimond
author_facet Amiri, Mohammad Hossein Nejati
Annaz, Fawaz
De Oliveira, Mario
Gueniat, Florimond
contents This study addresses the challenges of energy deficiencies and high impact low probability (HILP) events in modern electrical grids by developing resilient microgrid energy management strategies. It introduces a sliding Model Predictive Control (MPC) methodology integrated with Battery Energy Storage Systems (BESS), emphasizing extending battery life and prioritizing critical loads during HILP events. This approach focuses on extending the sustainability of battery operation by linearizing the battery lifecycle within the optimization framework. Furthermore, this research proposed a straightforward method to mitigate communication disruptions during HILP events, thereby ensuring operational integrity. This focused approach enhances isolated microgrid resilience and sustainability, offering a strategic response to contemporary environmental challenges.
format Preprint
id arxiv_https___arxiv_org_abs_2407_10278
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Strategies for Resilience and Battery Life Extension in the Face of Communication Losses for Isolated Microgrids
Amiri, Mohammad Hossein Nejati
Annaz, Fawaz
De Oliveira, Mario
Gueniat, Florimond
Systems and Control
This study addresses the challenges of energy deficiencies and high impact low probability (HILP) events in modern electrical grids by developing resilient microgrid energy management strategies. It introduces a sliding Model Predictive Control (MPC) methodology integrated with Battery Energy Storage Systems (BESS), emphasizing extending battery life and prioritizing critical loads during HILP events. This approach focuses on extending the sustainability of battery operation by linearizing the battery lifecycle within the optimization framework. Furthermore, this research proposed a straightforward method to mitigate communication disruptions during HILP events, thereby ensuring operational integrity. This focused approach enhances isolated microgrid resilience and sustainability, offering a strategic response to contemporary environmental challenges.
title Strategies for Resilience and Battery Life Extension in the Face of Communication Losses for Isolated Microgrids
topic Systems and Control
url https://arxiv.org/abs/2407.10278