Mohammed amine amraoui | Thermal Management Systems | Best Researcher Award

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Prof. Mohammed Amine Amraoui | Thermal Management Systems | Best Researcher Award

Professor  |  Djillali Liabès University of Sidi Bel Abbès  |  Algeria

Prof. Mohammed Amine Amraoui is a senior academic and researcher specializing in mechanical engineering with a strong focus on thermal and energy systems. His professional experience spans industrial roles and a sustained academic career involving teaching, research leadership, and supervision of postgraduate projects. His research interests center on solar thermal systems, fluid flow, heat transfer enhancement, renewable energy applications, and computational fluid dynamics, with particular emphasis on flat-plate solar collectors and energy efficiency. He possesses advanced research skills in numerical modeling, CFD simulation, thermal analysis, and the use of engineering software tools for design and optimization. His work has earned recognition through peer-reviewed publications, conference contributions, and academic advancement. Overall, his contributions significantly support sustainable energy research and advanced thermal engineering practices.He has achieved 83 Citations, 11 Documents,5h-index.

 

Citation Metrics (Scopus)

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83
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11
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5
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Nana Qi | Thermal Management Systems | Research Excellence Award

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Assoc. Prof. Dr. Nana Qi  | Thermal Management Systems | Research Excellence Award

Associate Professor  | North China Electric Power University  |  China

Assoc. Prof. Dr. Nana Qi is an accomplished researcher with extensive professional experience in experimental and numerical investigations of coupled multiphase flow, heat and mass transfer, and chemical reaction systems across energy, chemical, and environmental engineering applications. Research interests focus on thermal management of power batteries, plasma-enhanced reactions, methane and ammonia utilization, flue-gas desulfurization, and advanced wastewater treatment. Research skills include CFD modeling, multi-objective optimization, reactor design, and performance evaluation of electrochemical and thermal systems. Notable contributions include optimizing lithium-ion battery thermal performance with significant energy-consumption reduction and advancing understanding of inter-phase transfer mechanisms in complex reactors. Awards and honors reflect sustained research excellence, impactful publications, patents, and leadership in funded projects, demonstrating strong academic and technological impact. She has achieved 291 Citations, 23 Documents, 9h-index.

 

Citation Metrics (Scopus)

400

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100

0

291
Citations

23
Documents

9
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Citations

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