OPTIMIZATION OF SURPLUS ELECTRICITY MANAGEMENT FROM MUNICIPAL PHOTOVOLTAIC SYSTEMS: VIRTUAL STORAGE VS BATTERY SYSTEMS

UDC: 621.311.243:[621.316.11.015:621.354](497.7)

Authors

  • Sara Aneva Faculty of Electrical Engineering and Information Technologies, Ss. Cyril and Methodius University in Skopje, Rugjer Boshkovikj, Skopje 1000, North Macedonia
  • Dragan Minovski Faculty of Electrical Engineering, Goce Delcev University, Krste Misirkov 10A, 2000 Stip, North Macedonia,
  • Vasilija Sarac Faculty of Electrical Engineering, Goce Delcev University, Krste Misirkov 10A, 2000 Stip, North Macedonia,
  • Darko Bogatinov Faculty of Electrical Engineering, Goce Delcev University, Krste Misirkov 10A, 2000 Stip, North Macedonia,
  • Sara Kostevska Faculty of Electrical Engineering, Goce Delcev University, Krste Misirkov 10A, 2000 Stip, North Macedonia,

DOI:

https://doi.org/10.46763/ETIMA253143a

Keywords:

Photovoltaic systems, virtual storage, battery storage, financial analyses, municipal energy independence.

Abstract

This study presents a comparative analysis of two models for managing surplus electricity generated by photovoltaic (PV) systems installed on eight municipal buildings in a Macedonian municipality. The first model is based on distributing the surplus electricity among 20 municipal buildings, utilizing them as a virtual storage to maximize local consumption of the generated electricity. The second model involves storing the surplus electricity in battery systems at each PV-equipped building and using the stored electricity the following day within the same building, while any surplus is sold on the market. For the purpose of the analysis, electricity consumption of the 28 municipal buildings and electricity production from the PV systems data were obtained from a municipal representative and allocated on an hourly basis using the standard load curve from EVN Macedonia and simulations performed with the licensed PV*SOL premium software. Financial analyses were conducted based on electricity prices from the HUPX electricity exchange for the year 2024. This study provides an assessment of the economic and technical advantages and drawbacks of both approaches, evaluating their impact on municipal energy independence, financial feasibility, and the optimization of renewable energy management.

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References

[1] Aneva, Sara / Minovski, Dragan / Sarac, Vasilija: “Energy Transition in Municipalities – A Model for Sustainable Energy Development.” Journal of Energy Technology 18(2), 2025, pp. 5-20.

[2] Hirschburger, Rafael / Weidlich, Anke: “Profitability of Photovoltaic and Battery Systems on Municipal Buildings.” Renewable Energy 153, 2020, pp. 1163–1173

[3] Nousdilis, Angelos I. et al.: “Profitability of Building Integrated PVs Enhanced by Batteries and Load Management Considering Battery Aging.” [Conference Paper], 2025

[4] Roberts, Mike B. / Bruce, Anna / MacGill, Iain: “Impact of Shared Battery Energy Storage Systems on Photovoltaic Self-Consumption and Electricity Bills in Apartment Buildings.” Applied Energy 245, 2019, pp. 78–95

[5] Scheller, Fabian / Burkhardt, Robert / Schwarzeit, Robert et al.: “Competition between Simultaneous Demand-Side Flexibility Options: The Case of Community Electricity Storage Systems.”2020, doi:10.48550/arXiv.2011.05809.

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Published

2025-10-27

Issue

Vol. 3 No. 1 (2025): Third International Conference ETIMA 2025

Section

Articles

How to Cite

OPTIMIZATION OF SURPLUS ELECTRICITY MANAGEMENT FROM MUNICIPAL PHOTOVOLTAIC SYSTEMS: VIRTUAL STORAGE VS BATTERY SYSTEMS: UDC: 621.311.243:[621.316.11.015:621.354](497.7). (2025). ETIMA, 3(1), 43-52. https://doi.org/10.46763/ETIMA253143a