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Sizing PV and BESS for Grid-Connected Microgrid Resilience: A Data-Driven Hybrid Optimization Approach

Author

Listed:
  • Mahtab Murshed

    (Department of Electrical and Computer Engineering, Texas Tech University, Lubbock, TX 79409, USA)

  • Manohar Chamana

    (Renewable Energy Program, Texas Tech University, Lubbock, TX 79409, USA)

  • Konrad Erich Kork Schmitt

    (Department of Electrical and Computer Engineering, Texas Tech University, Lubbock, TX 79409, USA)

  • Suhas Pol

    (Renewable Energy Program, Texas Tech University, Lubbock, TX 79409, USA)

  • Olatunji Adeyanju

    (Renewable Energy Program, Texas Tech University, Lubbock, TX 79409, USA)

  • Stephen Bayne

    (Department of Electrical and Computer Engineering, Texas Tech University, Lubbock, TX 79409, USA)

Abstract

This article presents a comprehensive data-driven approach on enhancing grid-connected microgrid grid resilience through advanced forecasting and optimization techniques in the context of power outages. Power outages pose significant challenges to modern societies, affecting various sectors such as industries, households, and critical infrastructures. The research combines statistical analysis, machine-learning algorithms, and optimization methods to address this issue to develop a holistic approach for predicting and mitigating power outage events. The proposed methodology involves the use of Monte Carlo simulations in MATLAB for future outage prediction, training a Long Short-Term Memory (LSTM) network for forecasting solar irradiance and load profiles with a dataset spanning from 2009 to 2018, and a hybrid LSTM-Particle Swarm Optimization (PSO) model to improve accuracy. Furthermore, the role of battery state of charge (SoC) in enhancing system resilience is explored. The study also assesses the techno-economic advantages of a grid-tied microgrid integrated with solar panels and batteries over conventional grid systems. The proposed methodology and optimization process demonstrate their versatility and applicability to a wide range of microgrid design scenarios comprising solar PV and battery energy storage systems (BESS), making them a valuable resource for enhancing grid resilience and economic efficiency across diverse settings. The results highlight the potential of the proposed approach in strengthening grid resilience by improving autonomy, reducing downtime by 25%, and fostering sustainable energy utilization by 82%.

Suggested Citation

  • Mahtab Murshed & Manohar Chamana & Konrad Erich Kork Schmitt & Suhas Pol & Olatunji Adeyanju & Stephen Bayne, 2023. "Sizing PV and BESS for Grid-Connected Microgrid Resilience: A Data-Driven Hybrid Optimization Approach," Energies, MDPI, vol. 16(21), pages 1-22, October.
    • Handle: RePEc:gam:jeners:v:16:y:2023:i:21:p:7300-:d:1269047
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    References listed on IDEAS

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    1. Mulleriyawage, U.G.K. & Shen, W.X., 2020. "Optimally sizing of battery energy storage capacity by operational optimization of residential PV-Battery systems: An Australian household case study," Renewable Energy, Elsevier, vol. 160(C), pages 852-864.
    2. Yang, Yuqing & Bremner, Stephen & Menictas, Chris & Kay, Merlinde, 2018. "Battery energy storage system size determination in renewable energy systems: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 109-125.
    3. Bo Gu & Xi Li & Fengliang Xu & Xiaopeng Yang & Fayi Wang & Pengzhan Wang, 2023. "Forecasting and Uncertainty Analysis of Day-Ahead Photovoltaic Power Based on WT-CNN-BiLSTM-AM-GMM," Sustainability, MDPI, vol. 15(8), pages 1-27, April.
    4. Gu, Bo & Shen, Huiqiang & Lei, Xiaohui & Hu, Hao & Liu, Xinyu, 2021. "Forecasting and uncertainty analysis of day-ahead photovoltaic power using a novel forecasting method," Applied Energy, Elsevier, vol. 299(C).
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