Energy Management Strategy and Efficient Fuel Use for a Hybrid System with Pumped Storage Integration

Authors

  • Okba Djelailia Department of Electrical Engineering;Abbes Laghrour University Khenchela, Algeria, BO: 40000
  • Hocine Labar Department of Electrical Engineering; laboratory electrotrotechnique d'annaba (LEA); Badji Mokthar University Annaba, BO: 12 23000 Algeria
  • Mounia Samira Kelaiaia Department of Electrical Engineering; laboratory electrotrotechnique d'annaba (LEA); Badji Mokthar University Annaba, BO: 12 23000 Algeria
  • Faycel Merad Department of Electrical Engineering; laboratory electrotrotechnique d'annaba (LEA); Badji Mokthar University Annaba, BO: 12 23000 Algeria

DOI:

https://doi.org/10.51984/sucp.v4i1.3974

Keywords:

Hybrid energy system, Photovoltaic, Diesel generator, Source and energy management, Pumped hydroelectric storage, CO2 gaz emissions, renewable energy

Abstract

Photovoltaic panels sometimes produce excess power and at other times insufficient energy. To address this uncontrolled production, a storage system is essential. In this paper, pumped hydroelectric storage (PHS) is preferred as an energy storage system due to its ecological benefits and relevance to the context. Managing the energy of a PV/DG/PHS hybrid system requires specific control that considers the temporal availability of solar energy, optimizing diesel fuel consumption in real-time, and accommodating pumping constraints. The proposal showcases the efficiency of the PHS double effect system in terms of irrigation and electricity generation, while also highlighting fuel savings and a decrease in CO2 emissions. This research validates the new, precise method for calculating online fuel consumption per kWh, outperforming previous studies, and successfully tested within the suggested energy management system. The approach can be utilized in similar future research efforts.

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Published

2025-05-04

Issue

Sebha University Conference Proceedings, Vol 4, No. 1, 2025: Proceeding of The First Scientific Conference on Engineering Applications (ICEA’2024)

Section

Confrence Proceeding

License

Copyright (c) 2025 Sebha University Conference Proceedings

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

How to Cite

Energy Management Strategy and Efficient Fuel Use for a Hybrid System with Pumped Storage Integration. (2025). Sebha University Conference Proceedings, 4(1), 166-170. https://doi.org/10.51984/sucp.v4i1.3974