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AI Summary of Peer-Reviewed Research

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Publishing process signals: STRONG — reflects the venue and review process. — venue and review process.

Hybrid renewable microgrids differed by country for EV charging

A wide landscape view of a modern renewable energy facility featuring extensive solar panel arrays mounted on an orange-brown roof structure, with mountains visible in the distant background under a partly cloudy blue sky.
Research area:EngineeringElectrical and Electronic EngineeringHybrid Renewable Energy Systems

What the study found

An off-grid hybrid renewable microgrid combining photovoltaic power, wind power, battery energy storage, and hydrogen energy storage was sized to achieve near-zero loss of power supply for electric vehicle charging. The study found different optimal designs for Egypt and Türkiye, with Türkiye achieving a lower levelized cost of energy.

Why the authors say this matters

The authors state that the approach supports clean, reliable power for electric vehicle charging stations. They conclude that coordinated battery and hydrogen storage can support reliable and cost-effective EV charging across different climatic and economic contexts.

What the researchers tested

The researchers used a multi-objective framework with an Indicator-Based Evolutionary Algorithm to optimize the microgrid. They minimized levelized cost of energy, curtailment ratio, and loss of power supply probability while maximizing renewable fraction, and tested the method in Attaka, Egypt and Yalova, Türkiye.

What worked and what didn't

All designs met the strict zero-LPSP constraint, reported as 0.001% or less. Türkiye had a lower levelized cost of energy ($0.0173/kWh) than Egypt ($0.0261/kWh), along with lower curtailment ratio and slightly higher renewable fraction, while Egypt required much larger battery capacity to handle solar variability.

What to keep in mind

The abstract notes that results vary by location because of climate and finance. It also reports sensitivity to discount and inflation rates, wind speed, and load demand, and states that Egypt showed greater financial fragility based on the reported break-even thresholds.

Key points

  • The study optimized an off-grid PV-wind-hydrogen-battery microgrid for EV charging.
  • All tested designs met the near-zero loss of power supply target.
  • Türkiye had the lower reported levelized cost of energy at $0.0173/kWh, compared with Egypt's $0.0261/kWh.
  • Egypt required much larger battery storage capacity to handle solar variability.
  • The abstract reports that discount and inflation rates had the largest effect on cost, while wind speed and load demand affected operation.

Disclosure

Research title:
Hybrid renewable microgrids differed by country for EV charging
Authors:
Ahmad F. Tazay, Shimaa Barakat, Aykut Fatih Guven, Heba I. Elkhouly, Mohamed Mahmoud Samy
Institutions:
Al Baha University, Beni-Suef University, Yalova University
Publication date:
2026-03-08
DOI:
10.1016/j.rineng.2026.109938
OpenAlex record:
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AI provenance: This post was generated by OpenAI. The original authors did not write or review this post.

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