Rerhrhaye Badr | Electrical Network | Best Scholar Award

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Mr. Rerhrhaye Badr | Electrical Network | Best Scholar Award

Mr. Rerhrhaye Badr | LASTIMI | Morocco

Mr. Rerhrhaye Badr is an electrical engineer specializing in energy systems, conversion technologies, and sustainable development, holding a Master’s degree in “Énergie électrique, conversion, matériaux et développement durable” from INP Toulouse & Université Paul Sabatier (2021–2022) and an Ingénieur d’État diploma in Génie Électrique from ENSAM Rabat (2019–2021). His professional experience spans academia, healthcare infrastructure, and industrial environments, reflecting a strong balance of technical, managerial, and instructional expertise. As an Enseignant Vacataire at EST-Salé (2023–2024), he delivered courses, TDs, and TPs in solar installation maintenance and electrical systems while supervising 127 final-year projects across Génie Électrique, Informatique Industrielle, Génie Industriel, and Maintenance. In 2023, he served as Project Manager for Hôpital Avicenne Marrakech, leading the design and implementation of a 220 kWc self-consumption solar system, including load-profile analysis, equipment selection, and photovoltaic field dimensioning. His final-year internship at SAFRAN Tech Paris-Saclay (2022) focused on BCI testing for energy-conversion chains and the automation of a LabView-based test bench. From 2014 to 2019, he was Adjoint Chef de Service at HMIMV in Rabat, responsible for maintaining critical electrical and medical equipment in collaboration with Siemens, GE, T2S, and other major firms, following five years (2009–2014) as Chef de Projet overseeing large-scale electrical network renovations and the installation of ten MT/BT transformer stations. His academic output includes 8 published documents, with 24 citations across 17 citing sources and an h-index of 3, reflecting a growing scientific contribution in electrical engineering, energy systems, and applied industrial technologies.

Profile: Scopus

Featured Publications

Rerhrhaye, B., Rerhrhaye, F., El Akkary, A., Lahlouh, I., Ennaciri, Y., Sefiani, N., Khouili, D., & El Martaoui, C. (2025). Proposal for the utilization of multilevel solar inverters for the electrical network conditioning of a hospital. EPJ Web of Conferences, 330, Article 03004.

Dr. Shixian Bai | Energy | Best Researcher Award

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Dr. Shixian Bai | Energy | Best Researcher Award

School of Electrical Engineering, Xi’an University of Technology, China.

Shixian Bai is a distinguished researcher at the School of Electrical Engineering, Xi’an University of Technology, specializing in power electronic control technology, renewable energy generation systems, and electrochemical energy storage solutions. His pioneering work focuses on SOC equalization control methods that improve the performance and efficiency of energy storage systems, particularly in DC–DC converter cascaded energy storage setups. Bai's innovative research has made a significant impact on enhancing both charging and discharging capacities, contributing to the advancement of energy storage technologies.

Profile

Orcid

🎓 Education

Shixian Bai holds a degree in Electrical Engineering. His academic background is centered on power electronic control technology and renewable energy generation systems, equipping him with the expertise necessary for his groundbreaking research in energy storage solutions.

💼 Experience

Bai is currently engaged in research at the School of Electrical Engineering, Xi’an University of Technology, where he leads projects on electric-thermal balance control among battery modules in DC–DC cascaded energy storage systems. His work has not only contributed to advancing theoretical understanding but has also provided practical solutions for enhancing energy storage performance. Bai’s involvement in industry-related projects has not been reported, but his academic contributions are notable.

🔬 Research Interests

Power Electronic Control Technology: Developing advanced control methods to enhance the performance and reliability of electronic systems, particularly in energy storage applications.

Renewable Energy Generation Systems: Exploring the integration of renewable energy sources with efficient storage and conversion technologies to support sustainable energy solutions.

Electrochemical Energy Storage Solutions: Focusing on innovative ways to improve the efficiency, lifespan, and capacity of energy storage systems, with an emphasis on electrochemical solutions such as batteries.

Control Mechanisms for Energy Storage Systems: Addressing the complexities of managing energy storage systems, particularly through the optimization of SOC (State of Charge) and SOH (State of Health) variations to maximize performance and sustainability.

Publication 📚

Bai, S. (2024). SOC Equalization Control Method Considering SOH in DC–DC Converter Cascaded Energy Storage Systems. Energies, 17(24), 6385. Link