Frédéric DUBAS | energy | Best Researcher Award

Posted on by ScienceFather

Assist. Prof. Dr. Frédéric DUBAS | energy | Best Researcher Award

Associate Professor. Femto-ST / uFC, France

Frédéric Dubas, a dedicated academic and researcher, has been serving as a Maître de Conférences (MCF) at Université de Franche-Comté (UFC) since 2009. Specializing in the field of sciences, he has progressed to the rank of “hors classe” and holds substantial experience in teaching, scientific leadership, and supervision. His work spans interdisciplinary research in non-conventional thermal and electrical machinery, particularly through the renowned FEMTO-ST Institute. With a proactive approach to industrial collaborations, Frédéric has contributed significantly to scientific advancements in electrical actuators and electrolyzer technologies. 🌍🎓💡

Publication Profile

ORCID

Education

Frédéric earned his MCF degree in 2009 and was promoted to “hors classe” in 2022. Currently affiliated with the Department of Sciences and Energies at UFC and the FEMTO-ST Institute, he continues to push the boundaries of research while mentoring students across multiple academic levels. 🏅📘

Experience

Frédéric has over 15 years of academic experience, during which he has supervised both undergraduate and graduate programs in science and energy, focusing on electrical engineering topics. He also leads the “Non-Conventional Thermal and Electrical Machines” research team and has been a key scientific figure for the SHARPAC team, directing research initiatives and overseeing multiple industrial projects with notable partners. His expertise includes both scientific leadership and hands-on project supervision, where he engages in practical research applications. 👨‍🏫🔋

Research Focus

Frédéric’s research primarily centers on electrical machinery, non-conventional thermal and electrical machines, and electrolyzer technologies. He has driven numerous interdisciplinary projects within the FEMTO-ST Institute, where he leads research in novel approaches to enhance efficiency in electrical machines. His industrial collaborations have yielded impactful outcomes in applied science and engineering. 🌌⚙️

Awards and Honors

Frédéric’s contributions have been widely recognized, including the IEEE “Best Paper Award” in 2021 and the internal Renault Innovation Award in 2019. His work has earned additional accolades such as the WASET “Best Presentation Award” and IEEE “Prize Paper Award.” His published works have also been highlighted on MCA MDPI journal covers in both 2018 and 2021, demonstrating his influence in the field of electrical engineering. 🏆📜

Publication Top Notes

Diagnostic and Performance Analysis of a Water Electrolyzer by Magnetic Field Measurements

A 2D Multi-Layer Model to Study the External Magnetic Field Generated by a Polymer Exchange Membrane Fuel Cell

Review of Multi-Physics Modeling on the Active Magnetic Regenerative Refrigeration

Loh Boris-Edmond Bohteh | Hybrid Renewable Energy | Best Researcher Award

Posted on by ScienceFather

Mr. Loh Boris-Edmond Bohteh | Hybrid Renewable Energy | Best Researcher Award

Research scientist, University of Dschang Cameroon, Cameroon

Boris-Edmond Loh Bohteh, born on March 16, 1993, in Bamenda, Cameroon, is a dedicated physicist specializing in electronics, electrotechnics, and automation. A passionate educator and researcher, he currently contributes to academia and applied research in renewable energy and electrical systems. His expertise spans various technical fields, with a strong focus on sustainable energy solutions for local communities.

Profile

Google Scholar

Education 🎓

Boris earned his M.Sc. in Physics from the University of Dschang in 2019, with a specialization in electronics, electrotechnics, and automation. His thesis, supervised by Professor Tchiotsop Daniel, focused on medical physics applications, specifically electrotherapy systems. Earlier, he obtained his B.Sc. in Physics from the University of Dschang in 2017 and a Secondary School Teacher Diploma (DIPES I) from the University of Bamenda in 2015.

Experience 💼

Boris has extensive teaching experience, including his current role as a secondary school instructor at Saint Joseph Calasanz Bilingual Comprehensive College in Cameroon, where he teaches General Physics. Since 2015, he has taught various physics courses across several institutions, such as Government Bilingual High School Yom 3 and Saint Albert Comprehensive College, sharing his expertise with students in both English and French-speaking contexts.

Research Interests 🔬

Boris’s research focuses on renewable energy, electrical systems, and the applications of meta-heuristic algorithms in energy solutions. His interests also extend to artificial intelligence, where he explores innovative approaches to optimizing hybrid energy systems for rural communities in Cameroon, integrating sustainable and efficient energy technologies.

Publications  Top Notes📑

 

Loh Bohteh, B.E., & Nfah, E.M. (2024). Techno-Economic and Environmental Design of a Three-Phase Hybrid Renewable Energy System for UNVDA Ndop, Cameroon Using Meta-Heuristic and Analytical Approaches. Journal of Renewable Energy

This publication explores an optimal energy design for rural communities in Cameroon, leveraging meta-heuristic algorithms to enhance system efficiency and sustainability.

Hussein Togun | clean energy | Best Researcher Award

Posted on by ScienceFather

Prof Dr. Hussein Togun | clean energy | Best Researcher Award

PhD, University of Baghdad, Iraq

🌟 Prof. Dr. Hussein Togun is a distinguished researcher in the field of clean energy, recognized for his groundbreaking contributions. With a PhD from the University of Baghdad, Iraq, Dr. Togun has been instrumental in advancing renewable energy technologies and sustainable practices. His innovative research has earned him the prestigious Best Researcher Award, highlighting his exceptional expertise and dedication to solving global energy challenges. Dr. Togun’s work not only advances scientific knowledge but also contributes significantly to the transition towards a cleaner and more sustainable future. 🌱

Profile

Google scholar

Experience

📚 From 2006 to 2021, I meticulously crafted and taught a comprehensive course spanning mathematics, Thermodynamics, Transport Phenomena, and Heat Transfer across various academic levels. Serving as the head of the Department of Biomedical Engineering from 2015 to 2019 enriched my experience further, allowing me to delve into every facet of course administration. This encompassed syllabus design, textbook selection, TA recruitment and supervision, assignment creation, supplementary material development, and lecturing. Additionally, I organized numerous seminars covering diverse Engineering disciplines, wherein participants earned full graduate credit. This multifaceted journey not only honed my teaching skills but also instilled a deep appreciation for academic leadership. 🎓

Research Areas

🔥 Exploring the forefront of thermal performance and heat transfer, my research delves into innovative areas such as Hybrid-Nanofluids and Phase Change Materials (PCM). By combining expertise in energy, fluid mechanics, and computational fluid dynamics (CFD) simulation, I aim to revolutionize heat transfer technologies. These efforts hold promise for enhancing energy efficiency and sustainability across various applications, from industrial processes to renewable energy systems. Through rigorous experimentation and modeling, I seek to unlock the full potential of advanced fluid systems, paving the way for more efficient heat management solutions in a rapidly evolving world. My passion lies in harnessing these technologies to drive positive change and address pressing global challenges. 💡

Citations

Citations  2753
h-index  27
i10-index  53

Publications Top Notes

“An experimental study on thermal conductivity and viscosity of nanofluids containing carbon nanotubes” (2014) – 296 citations

“Investigation of heat transfer enhancement in a forward-facing contracting channel using FMWCNT nanofluids” (2014) – 255 citations

“Preparation, characterization, viscosity, and thermal conductivity of nitrogen-doped graphene aqueous nanofluids” (2014) – 155 citations

“Numerical simulation of laminar to turbulent nanofluid flow and heat transfer over a backward-facing step” (2014) – 148 citations

“Heat transfer and fluid flow of pseudo-plastic nanofluid over a moving permeable plate with viscous dissipation and heat absorption/generation” (2019) – 147 citations

“An experimental and numerical investigation of heat transfer enhancement for graphene nanoplatelets nanofluids in turbulent flow conditions” (2015) – 144 citations

“Thermal performance of nanofluid in ducts with double forward-facing steps” (2015) – 89 citations

“A review of studies on forced, natural and mixed heat transfer to fluid and nanofluid flow in an annular passage” (2014) – 74 citations

“A novel hybrid biomass-solar driven triple combined power cycle integrated with hydrogen production: Multi-objective optimization based on power cost and CO2 emission” (2021) – 66 citations

“A novel hybrid modelling structure fabricated by using Takagi-Sugeno fuzzy to forecast HVAC systems energy demand in real-time for Basra city” (2020) – 56 citations

 

Djamila Rekioua | Renewable energies | Best Researcher Award

Posted on by ScienceFather

Prof. Djamila Rekioua | Renewable energies | Best Researcher Award

Professor, University of Bejaia, Algeria

🎓 REKIOUA, born ZIANI Djamila on September 4, 1963, in Algiers, Algeria, is affiliated with the University of Bejaia, Faculty of Technology. Her professional address is located at 06000 Bejaia, Algeria. With a rich background in academia, REKIOUA contributes significantly to the academic landscape, particularly in the field of technology. Her dedication to education and research exemplifies her commitment to advancing knowledge and nurturing future generations of professionals. Through her work, she continues to make meaningful contributions to her field and inspire others in the pursuit of excellence.

Profile

orcid

researchgate

webofscience

Citations

h-index (scopus): 36
CitationScopus: 3616
D-index: 30
h-index(google scholar):41
CitationGoogle scholar:5841

Teachings

📚 REKIOUA excels in teaching diverse subjects including “Dimensionnement des systèmes à énergies renouvelables,” “Commande des machines électriques,” “Introduction aux énergies renouvelables,” and “Systèmes multi sources à énergies renouvelables.” Additionally, she has played a pivotal role in creating new masters programs, serving as a leader in specialty and master’s degree programs. Her contributions extend beyond teaching to encompass the development of various educational resources and materials. Through her efforts, REKIOUA continues to enrich the academic landscape, preparing students for careers in renewable energy and related fields with innovation and dedication.

Areas of Interest

📘 With expertise spanning “Commande des machines électriques,” “Identification et modélisation des machines électriques,” “Production de l’énergie électrique,” and more, REKIOUA’s research portfolio encompasses 72 publications, including 46 indexed communications, 17 book chapters, and 5 editorials. Her extensive contributions extend to the realm of academia with 4 authored books. Focusing on renewable energy systems such as photovoltaic and wind systems, as well as fuel cells and multi-source renewable energy system management, REKIOUA’s work significantly impacts the field. Her dedication to advancing knowledge in electrical engineering and renewable energy is evident through her prolific publication record and scholarly endeavors. 🌟

Publications Top Notes

Optimization and intelligent power management control for an autonomous hybrid wind turbine photovoltaic diesel generator with batteries, Scientific Reports 13 (1), 21830, 2023 🌬️🌞🔋

Optimized Power Management Approach for Photovoltaic Systems with Hybrid Battery-Supercapacitor Storage, Sustainability 15 (19), 14066, 2023 🌞🔋

Energy Storage Systems for Photovoltaic and Wind Systems: A Review, Energies 16 (9), 3893, 2023 🌞🌬️🔋

Power Management Control of an Autonomous Photovoltaic/Wind Turbine/Battery System, Energies, 16(5), 2286, 2023 🌞🌬️🔋

Hybrid Renewable Energy Systems: Optimization and Power Management Control, Ed. Springer, 2020 🌿🔋