Mr. Kabir Bashir SHARIFF | mécanique des fluides | Best Researcher Award

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Mr. Kabir Bashir SHARIFF | mécanique des fluides | Best Researcher Award 

jeune chercheur, Laboratoire universitaire des sciences appliquées de Cherbourg, France

Kabir Bashir Shariff is a motivated professional with a Ph.D. in Fluid Mechanics, Energetics, Thermal & Acoustics. He is passionate about renewable energy and has experience in fluid and thermal analysis, analytical modeling, and data analysis.

Profile

scholar

🎓 Education

– Ph.D. in Fluid Mechanics, Energetics, Thermal & Acoustics, University of Caen Normandy (2020-2023) 📚– (link unavailable) in Fluid Mechanics and Energetics, Grenoble INP – ENSE3 (2019-2020) 🌟– (link unavailable) in Applied Mechanics, University Grenoble Alpes (2018-2019) 🔍

👨‍🔬 Experience

– Engineer, Capgemini (2022-present) 💻– Doctoral Researcher, LUSAC (2020-2023) 🔬– Teaching Assistant, ESIX Normandie (2022-2023) 📚– Intern, LEGI and 3SR (2020 and 2019) 🔍– Engineer, Colenco Consulting (2017-2018) 💼

🔍 Research Interest

Kabir Bashir Shariff’s research focuses on optimizing energy production in tidal turbine parks, analytical modeling, and CFD analysis.

📚 Publications

1. “An empirical model accounting for added turbulence in the wake of a full-scale turbine in realistic tidal stream conditions” 🌊
2. “Developing an empirical model for added turbulence in a wake of tidal turbine” 🔍
3. “A generalized empirical model for velocity deficit and turbulent intensity in tidal turbine wake accounting for the effect of rotor-diameter-to-depth ratio” 📊
4. “A comparative study of power production using a generic empirical model in a tidal farm” 💡
5. “An empirical wake model accounting for velocity deficit and turbulence intensity in a simple tidal park” 🌟
6. “Development of a generic analytical model for optimizing the energy production of a tidal turbine park” 📚
7. “Added turbulence empirical model for a single tidal turbine” 🔬
8. “Developing an empirical model for added turbulence” 📝

Conclusion

Based on the provided profile, Kabir Bashir Shariff appears to be a strong candidate for the Best Researcher Award, given his research productivity, teaching experience, and industry background. Addressing the areas for improvement could further strengthen his candidacy.

Xueye Chen | Hydrodynamics | Best Researcher Award

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Prof. Xueye Chen | Hydrodynamics | Best Researcher Award

Professor at  Ludong University, China

👨‍🏫 Prof. Xueye Chen is a faculty member at the College of Transportation, Ludong University. He has served as a visiting scholar at Nanyang Technological University and The Hong Kong Polytechnic University. His expertise spans wearable technology, medical health innovations, and modern agriculture. Prof. Chen specializes in micro-nano manufacturing, flexible MEMS intelligent sensing, and microfluidic systems. With over 200 publications and 10 patents, he significantly contributes to advancing intelligent sensors and fractal microfluidic control.

Professional Profiles:

scopus

Education🎓

Prof. Chen pursued higher education in micro-nano technology and mechanical engineering, solidifying his foundation in innovative sensor development. He has engaged in specialized training and international academic exchanges at prestigious institutions such as Nanyang Technological University and The Hong Kong Polytechnic University.

Experience🔬 

Prof. Chen has led numerous research projects in wearable devices and flexible sensors. He has completed two major projects, with one ongoing. His extensive publication record, alongside 10 patents, showcases his dedication to applied research in micro-nano manufacturing.

Awards and Honors🏆

Prof. Chen holds an H-index of 33 with over 3,500 citations. His patents and groundbreaking work in fluid control and sensing technologies have positioned him as a leading figure in his field. His contributions have earned him recognition for innovation and scholarly excellence.

Research Focus🧪 

Prof. Chen’s research emphasizes microfluidic system design, where he applies fractal principles to develop efficient micromixers. He pioneers new micro-nano manufacturing methods and designs flexible MEMS sensors for wearable health and agricultural applications, driving advancements in intelligent sensing.

✍️Publications Top Note 

Dual-mode paper fiber sensor – Monitors humidity and pressure using laser-induced graphene. (Chemical Engineering Journal, 2024)

Coastal fractal micromixer – Designs micromixers for liposome manufacturing. (Physics of Fluids, 2024)

Droplet formation simulation – Investigates microchannel capillary devices. (Chinese Journal of Analytical Chemistry, 2024)

Porous fiber humidity sensor – Tracks skin and breathing moisture non-invasively. (Journal of Materials Chemistry A, 2024)

Three-objective micromixer optimization – Applies Pareto genetic algorithms to fractal micromixers. (Int. J. Chem. Reactor Eng., 2024)

Conclusion

Prof. Xueye Chen is a highly accomplished researcher whose impressive publication record, high citation impact, and innovative patents make him a strong contender for the Best Researcher Award. His groundbreaking work in micro-nano manufacturing and fluidic systems reflects a commitment to pushing the boundaries of scientific discovery. Addressing gaps in collaboration, professional memberships, and editorial appointments would further solidify his profile and increase his competitiveness for top-tier awards.