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Energy Management System for the Photovoltaic Battery Integrated Module

Author

Listed:
  • Victor Vega-Garita

    (Department of Electrical Sustainable Energy, Delft University of Technology, P.O. Box 5031, 2600 GA Delft, The Netherlands)

  • Muhammad Faizal Sofyan

    (Department of Electrical Sustainable Energy, Delft University of Technology, P.O. Box 5031, 2600 GA Delft, The Netherlands)

  • Nishant Narayan

    (Department of Electrical Sustainable Energy, Delft University of Technology, P.O. Box 5031, 2600 GA Delft, The Netherlands)

  • Laura Ramirez-Elizondo

    (Department of Electrical Sustainable Energy, Delft University of Technology, P.O. Box 5031, 2600 GA Delft, The Netherlands)

  • Pavol Bauer

    (Department of Electrical Sustainable Energy, Delft University of Technology, P.O. Box 5031, 2600 GA Delft, The Netherlands)

Abstract

Given the complementary nature of photovoltaic (PV) generation and energy storage, the combination of a solar panel and a battery pack in one single device is proposed. To realize this concept, the PV Battery-Integrated Module ( PBIM ), it is fundamental to analyze the system architecture and energy management. This paper focuses on selecting a suitable architecture among the different options, while also indicating the control strategy that the converters must follow to ensure appropriate performance. Also, several modes of operation for the complete system are introduced to implement energy management. For the selected DC architecture, two case studies, viz. off-grid and peak-shaving for a grid-tied system, were employed to characterize the response of the model demonstrating its utility to perform maximum power-point tracking, excess solar power curtailment, and battery charging and discharging. The proposed control and system architecture prove to be feasible for a PV battery-integrated device such as PBIM .

Suggested Citation

  • Victor Vega-Garita & Muhammad Faizal Sofyan & Nishant Narayan & Laura Ramirez-Elizondo & Pavol Bauer, 2018. "Energy Management System for the Photovoltaic Battery Integrated Module," Energies, MDPI, vol. 11(12), pages 1-20, December.
    • Handle: RePEc:gam:jeners:v:11:y:2018:i:12:p:3371-:d:187137
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    References listed on IDEAS

    as
    1. Vega-Garita, Victor & Ramirez-Elizondo, Laura & Bauer, Pavol, 2017. "Physical integration of a photovoltaic-battery system: A thermal analysis," Applied Energy, Elsevier, vol. 208(C), pages 446-455.
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    6. Comello, Stephen & Reichelstein, Stefan J. & Sahoo, Anshuman, 2018. "The Road ahead for Solar PV Power," Research Papers 3620, Stanford University, Graduate School of Business.
    7. Luthander, Rasmus & Widén, Joakim & Nilsson, Daniel & Palm, Jenny, 2015. "Photovoltaic self-consumption in buildings: A review," Applied Energy, Elsevier, vol. 142(C), pages 80-94.
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    Cited by:

    1. Franco Canziani & Raúl Vargas & Miguel Castilla & Jaume Miret, 2021. "Reliability and Energy Costs Analysis of a Rural Hybrid Microgrid Using Measured Data and Battery Dynamics: A Case Study in the Coast of Perú," Energies, MDPI, vol. 14(19), pages 1-17, October.
    2. Yongbin Wu & Donghui Zhang & Liansong Xiong & Sue Wang & Zhao Xu & Yi Zhang, 2019. "Modeling and Mechanism Investigation of Inertia and Damping Issues for Grid-Tied PV Generation Systems with Droop Control," Energies, MDPI, vol. 12(10), pages 1-17, May.

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