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DSO Flexibility Market Framework for Renewable Energy Community of Nanogrids

Author

Listed:
  • Luca Mendicino

    (Department of Mechanical, Energy and Management Engineering, University of Calabria-Arcavacata, Rende, 87036 Cosenza, Italy)

  • Daniele Menniti

    (Department of Mechanical, Energy and Management Engineering, University of Calabria-Arcavacata, Rende, 87036 Cosenza, Italy)

  • Anna Pinnarelli

    (Department of Mechanical, Energy and Management Engineering, University of Calabria-Arcavacata, Rende, 87036 Cosenza, Italy)

  • Nicola Sorrentino

    (Department of Mechanical, Energy and Management Engineering, University of Calabria-Arcavacata, Rende, 87036 Cosenza, Italy)

  • Pasquale Vizza

    (Department of Mechanical, Energy and Management Engineering, University of Calabria-Arcavacata, Rende, 87036 Cosenza, Italy)

  • Claudio Alberti

    (Network Development, E-Distribuzione–Rome, 00100 Rome, Italy)

  • Francesco Dura

    (Network Development, E-Distribuzione–Rome, 00100 Rome, Italy)

Abstract

With the introduction of the renewable energy communities in the current electrical market environment, it becomes possible to aggregate small generation resources and users’ loads to exchange power within the aggregation and at the same time provide services to the electrical system. The renewable energy community of users equipped with nanogrid technology allows performing an adequate level of flexibility. It may be the solution to coordinate in the best possible way the energy resources in order to increase the community self-consumption and to provide ancillary services to the grid. In this paper, a model for the interaction between the Distribution System Operator (DSO)—Transmission System Operator (TSO) and the energy community based on nanogrids is proposed and an operational example is presented.

Suggested Citation

  • Luca Mendicino & Daniele Menniti & Anna Pinnarelli & Nicola Sorrentino & Pasquale Vizza & Claudio Alberti & Francesco Dura, 2021. "DSO Flexibility Market Framework for Renewable Energy Community of Nanogrids," Energies, MDPI, vol. 14(12), pages 1-19, June.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:12:p:3460-:d:573273
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    References listed on IDEAS

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    Cited by:

    1. Lynne L. Kiesling & Leonardo Meeus & Michael G. Pollitt, 2021. "Special Issue “Innovation, Policy, and Regulation in Electricity Markets”," Energies, MDPI, vol. 14(19), pages 1-4, September.
    2. Domagoj Badanjak & Hrvoje Pandžić, 2021. "Distribution-Level Flexibility Markets—A Review of Trends, Research Projects, Key Stakeholders and Open Questions," Energies, MDPI, vol. 14(20), pages 1-26, October.
    3. Martha N. Acosta & Francisco Gonzalez-Longatt & Juan Manuel Roldan-Fernandez & Manuel Burgos-Payan, 2021. "A Coordinated Control of Offshore Wind Power and BESS to Provide Power System Flexibility," Energies, MDPI, vol. 14(15), pages 1-17, July.
    4. Rovense, Francesco & Pinnarelli, Anna & González-Aguilar, José & Romero, Manuel & Brusco, Giovanni & Vizza, Pasquale & Menniti, Daniele & Sorrentino, Nicola & Dufour, Javier, 2025. "Assessment of dispatching scenarios for a multi-tower concentrating solar power plant in a Renewable Energy Community," Applied Energy, Elsevier, vol. 382(C).
    5. Robin Sudhoff & Sebastian Schreck & Sebastian Thiem & Stefan Niessen, 2022. "Operating Renewable Energy Communities to Reduce Power Peaks in the Distribution Grid: An Analysis on Grid-Friendliness, Different Shares of Participants, and Economic Benefits," Energies, MDPI, vol. 15(15), pages 1-18, July.
    6. Giuseppe Barone & Giovanni Brusco & Daniele Menniti & Anna Pinnarelli & Nicola Sorrentino & Pasquale Vizza & Alessandro Burgio & Ángel A. Bayod-Rújula, 2021. "A Renewable Energy Community of DC Nanogrids for Providing Balancing Services," Energies, MDPI, vol. 14(21), pages 1-21, November.

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