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.

 

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83
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11
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5
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Featured Publications

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)

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100

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291
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23
Documents

9
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Featured Publications

Manoj Kumar Singh | Thermal Management Systems | Best Researcher Award

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Dr. Manoj Kumar Singh | Thermal Management Systems | Best Researcher Award

Postdoctoral Fellow | Institute of Physics, Academia Sinica | Taiwan

Dr. Manoj Kumar Singh is an accomplished experimental high-energy physicist whose work spans neutrino physics, dark matter searches, detector development, and coherent neutrino–nucleus interactions, contributing significantly to global efforts in understanding physics beyond the Standard Model. His professional experience includes impactful postdoctoral research within the TEXONO Collaboration at Academia Sinica, where he has led analyses in low-threshold germanium detector technology, background reduction strategies, and novel pulse-shape discrimination methods that enhance rare-event detection capabilities. His research interests encompass neutrinoless double-beta decay, dark matter phenomenology, coherent elastic neutrino–nucleus scattering, HPGe detector optimization, gaseous detector technologies, and cryogenic systems for rare-event experiments. His research skills span detector characterization, GEANT4 simulations, ROOT-based data analysis, hardware integration, background modeling, sensitivity projections, and the development of statistical frameworks for discovery-potential estimation. His awards and honors reflect his scientific excellence, including recognition for groundbreaking analyses in neutrino scattering, prestigious national innovation awards, fellowships, and best-paper distinctions that underscore his leadership in high-precision instrumentation and subatomic particle detection. Across multiple collaborations and global research programs, he has contributed to advancing the frontier of low-energy rare-event detection, producing influential studies that strengthen the theoretical and experimental foundations for next-generation neutrino and dark matter experiments. His work demonstrates a deep commitment to advancing detector technologies with societal relevance, including medical imaging, nuclear safety, and environmental monitoring. Through continuous innovation, international engagement, and strategic scientific vision, he continues to shape the future of experimental particle physics and its applications. He has achieved 289 Citations, 34 Documents, 9h−index.

Profiles:  Google Scholar  |  Scopus | ORCID | Research Gate

Featured Publications 

Jiang, H., Jia, L. P., Yue, Q., Kang, K. J., Cheng, J. P., Li, Y. J., Wong, H. T., Agartioglu, M., … (2018). Limits on light weakly interacting massive particles from the first data of the CDEX-10 experiment.Physical Review Letters, 120(24), 241301. Citations: 225

Liu, Z. Z., Yue, Q., Yang, L. T., Kang, K. J., Li, Y. J., Wong, H. T., Agartioglu, M., An, H. P., … (2019).Constraints on spin-independent nucleus scattering with sub-GeV weakly interacting massive particle dark matter from the CDEX-1B experiment at the China Jinping Underground Laboratory.Physical Review Letters, 123(16), 161301. Citations: 177

Soma, A. K., Singh, M. K., Singh, L., Kumar, G. K., Lin, F. K., Du, Q., Jiang, H., Liu, S. K., … (2016). Characterization and performance of germanium detectors with sub-keV sensitivities for neutrino and dark matter experiments.Nuclear Instruments and Methods in Physics Research Section A, 836, 67–82. Citations: 103

China Jinping Underground Laboratory Collaboration. (2018). Limits on light WIMPs with a 1-kg-scale germanium detector at 160 eVee physics threshold at the China Jinping Underground Laboratory.Chinese Physics C, 42(2), 023002. Citations: 69

Singh, L., Chen, J. W., Chi, H. C., Liu, C. P., Pandey, M. K., Wong, H. T., Wu, C. P., … (2019). Constraints on millicharged particles with low-threshold germanium detectors at Kuo-Sheng Reactor Neutrino Laboratory.Physical Review D, 99(3), 032009. Citations: 65

The nominee’s work significantly advances global dark matter and neutrino research through high-precision detector development, ultra-low threshold measurements, and rigorous rare-event analyses that shape the future of underground physics experiments. These contributions strengthen scientific understanding, support technological innovation, and enhance applications in radiation safety, medical imaging, and national research infrastructure. Their vision drives breakthroughs that influence fundamental physics while fostering societal and industrial advancements in sensing and detection technologie