Prof. Dr. Sylvain Guillou | Turbulence | Excellence in Research

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Prof. Dr. Sylvain Guillou | Turbulence | Excellence in Research

Full Professor, University of Caen Normandy, France

🌟 Sylvain S. Guillou is a renowned Full Professor of Fluid Mechanics at the University of Caen Normandy, France. As the Director of the Applied Science Laboratory LUSAC, he has established himself as a leading expert in fluid mechanics, marine renewable energy, turbulence, and sediment transport. With extensive experience in teaching and research, Guillou has supervised numerous research projects and published over 88 articles in peer-reviewed journals. His dedication to advancing knowledge in his field has earned him recognition within the scientific community ¹ ².

Profile

scholar

🎓 Education

🎓 Guillou’s academic background is rooted in fluid mechanics and applied mathematics. He holds ³:- Ph.D. in Applied Mathematics: Accreditation to advise research in fluid mechanics, University of Caen (2005)- (link unavailable) in Dynamics of Fluids and Transfers: Ecole Centrale de Nantes (1996)- (link unavailable) in Mechanical Engineering: University of Le Havre (1991)

👨‍🔬 Experience

Guillou’s professional experience spans over two decades ² ¹:- *Full Professor*: ESIX, University of Caen Normandy (2017-present)- *Associate Professor*: ESIX, University of Caen-Lower Normandy (2005-2017)- *Assistant Professor*: ESIX, University of Caen-Lower Normandy (1999-2005)- *Lecturer*: EIC, University of Caen-Lower-Normandy (1997-1999)- *Post-doctoral Researcher*: University of Caen (1996-1997)

🔍 Research Interest

– *Fluid Mechanics*: Turbulence, sediment transport, and computational fluid dynamics- *Marine Renewable Energy*: Tidal turbines and coastal/estuarine flows- *Environmental Flows*: Complex fluid flows in pipes and environmental media

Awards and Honors

🏆 Guillou’s contributions to science have been recognized through various editorial and organizational roles:- *Associate Editor*: International Journal of Water La Houille Blanche, Energies, and special issues in esteemed journals- *Organizer*: International conferences, including the 6th International Conference on Estuaries and Coasts (ICEC-2018) and the Sino-French forum on Water Sciences (SFFWS-2015)

📚 Publications 

– Articles in peer-reviewed journals, including International Journal for Numerical Method in Fluids and Journal of Non-Newtonian Fluid Mechanics
– 2 scientific books, 4 book directions, and 5 book chapters
– Research on tidal turbines, estuaries, and coastal zones

Conclusion

Sylvain S. Guillou’s impressive research record, leadership roles, and editorial activities make him an excellent candidate for the Best Researcher Award. His contributions to fluid mechanics, marine renewable energy, and sediment transport have significantly advanced our understanding of these fields. With some potential for interdisciplinary collaborations and exploring emerging topics, Guillou is well-suited to receive this award.

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.

Dr. Saira Naz | Fluid Mechanics and Nanotechnology | Best Researcher Award

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Dr. Saira Naz | Fluid Mechanics and Nanotechnology | Best Researcher Award

Dr. Saira Naz, Giresun Üniversity, Turkey

I am an experienced academic professional with a PhD in Mathematics from Quaid-i-Azam University, Islamabad. My academic journey also includes an M.Phil. in Applied Mathematics, an M.Sc. in Mathematics, and a B.Sc. from the same institution. I hold a B.Ed from Allama Iqbal Open University. I have served as a faculty member at Air University and a visiting faculty at Bahria University, with additional teaching experience at Islamabad College of Management & Commerce and Spring Field Public School. I have attended multiple international conferences on fluid mechanics, reflecting my active engagement in continuous professional development.

Professional Profiles:

Scopus

Professional Qualification 📜

B.Ed: Allama Iqbal Open University, Islamabad (2015).

Experience 💼

Serving as a Faculty in Air University, IslamabadServing as a Visiting Faculty in Bahria UniversityServed as a permanent faculty (Teaching experience at F.Sc and B.Sc level) in Islamabad College of Management & Commerce, RawalpindiWorked as a lecturer in the Spring Field Public School and College, Harley-2 Campus, Harley Street, Rawalpindi

Conferences Attended 📚

Attended 7th International Conference on “Recent Developments in Fluid Mechanics” February 13-15, 2018.Attended 9th International Conference on “Recent Developments in Fluid Mechanics” November 27-29, 2023.Attended Conference on “Emerging Issues”

Career Objective 🌟

To work with an organization that enhances my abilities and where I can use my academic and technical experience to grow with the organization.

✍️Publications Top Note :

1. Significance of Nonlinear Radiation in Entropy Generated Flow of Ternary-Hybrid Nanofluids with Variable Thermal Conductivity and Viscous Dissipation

Authors: Naz, S., Hayat, T., Adil Sadiq, M., Momani, S.
Journal: Ain Shams Engineering Journal, 2024, 15(7), 102792
Citations: 1
Abstract: Not available
Related Documents: Not available

This article explores the impact of nonlinear radiation on the entropy generated in flows of ternary-hybrid nanofluids, considering the effects of variable thermal conductivity and viscous dissipation. The study is crucial for enhancing the efficiency of thermal systems involving nanofluids.

2. Melting and Dissipative Effects About Entropy Induced Darcy-Forchheimer Flow Involving Ternary-Hybrid Nanofluids

Authors: Hayat, T., Naz, S., Alsaedi, A., Momani, S.
Journal: Case Studies in Thermal Engineering, 2024, 55, 104097
Citations: 3
Abstract: Not available
Related Documents: Not available

This research investigates the melting and dissipative effects in entropy-induced Darcy-Forchheimer flow with ternary-hybrid nanofluids. The findings provide insights into optimizing heat transfer processes in engineering applications.

3. Entropy Optimized Radiative Flow Conveying Hybrid Nanomaterials (MgO-MoS2/C2H6O2) with Melting Heat Characteristics and Cattaneo-Christov Theory: OHAM Analysis

Authors: Naz, S., Hayat, T., Ahmad, B., Momani, S.
Journal: Ain Shams Engineering Journal, 2024, 102892
Citations: 0
Abstract: Not available
Related Documents: Not available

This article discusses the entropy optimization in radiative flow of hybrid nanomaterials, incorporating MgO-MoS2/C2H6O2, considering melting heat characteristics and applying the Cattaneo-Christov theory. The analysis is performed using the Optimal Homotopy Asymptotic Method (OHAM).

4. Soret and Dufour Impacts in Entropy Optimized MHD Flow by Third-Grade Liquid Involving Variable Thermal Characteristics

Authors: Hayat, T., Naz, S., Momani, S.
Journal: Numerical Heat Transfer; Part A: Applications, 2024
Citations: 0
Abstract: Not available
Related Documents: Not available

This study focuses on the Soret and Dufour effects in magnetohydrodynamic (MHD) flow of a third-grade liquid, optimized for entropy, considering variable thermal characteristics. The results have implications for advanced fluid dynamics and thermal management systems.

5. Numerical Modeling and Analysis of Non-Newtonian Nanofluid Featuring Activation Energy

Authors: Naz, S., Gulzar, M.M., Waqas, M., Hayat, T., Alsaedi, A.
Journal: Applied Nanoscience (Switzerland), 2020, 10(8), pp. 3183–3192
Citations: 6
Abstract: Not available
Related Documents: Not available

This paper presents a numerical analysis of non-Newtonian nanofluids with activation energy. The study offers valuable data for designing and improving heat transfer systems utilizing nanofluids.

6. Hydromagnetic Carreau Nanoliquid in Frames of Dissipation and Activation Energy

Authors: Waqas, M., Naz, S., Hayat, T., Ijaz Khan, M., Alsaedi, A.
Journal: Communications in Theoretical Physics, 2019, 71(12), pp. 1416–1424
Citations: 12
Abstract: Not available
Related Documents: Not available

This article examines the behavior of hydromagnetic Carreau nanoliquids, incorporating dissipation and activation energy effects. The findings contribute to the field of fluid mechanics and thermal conductivity enhancement.

7. Numerical Simulation for Activation Energy Impact in Darcy–Forchheimer Nanofluid Flow by Impermeable Cylinder with Thermal Radiation

Authors: Waqas, M., Naz, S., Hayat, T., Alsaedi, A.
Journal: Applied Nanoscience (Switzerland), 2019, 9(5), pp. 1173–1182
Citations: 20
Abstract: Not available
Related Documents: Not available

This study uses numerical simulation to analyze the impact of activation energy on Darcy-Forchheimer nanofluid flow around an impermeable cylinder, considering thermal radiation. The research offers insights into the heat transfer characteristics of nanofluids in complex geometries.

8. Effectiveness of Improved Fourier-Fick Laws in a Stratified Non-Newtonian Fluid with Variable Fluid Characteristics

Authors: Waqas, M., Naz, S., Hayat, T., Shehzad, S.A., Alsaedi, A.
Journal: International Journal of Numerical Methods for Heat and Fluid Flow, 2019, 29(6), pp. 2128–2145
Citations: 14
Abstract: Not available
Related Documents: Not available

This paper assesses the effectiveness of improved Fourier-Fick laws in a stratified non-Newtonian fluid with variable characteristics. The research contributes to the understanding of heat and mass transfer in complex fluid systems.

9. Effectiveness of Darcy-Forchheimer and Nonlinear Mixed Convection Aspects in Stratified Maxwell Nanomaterial Flow Induced by Convectively Heated Surface

Authors: Hayat, T., Naz, S., Waqas, M., Alsaedi, A.
Journal: Applied Mathematics and Mechanics (English Edition), 2018, 39(10), pp. 1373–1384
Citations: 24
Abstract: Not available
Related Documents: Not available