Ethan (Yew Hoe) – Fluid Dynamics – Best Researcher Award

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Ethan (Yew Hoe) - Fluid Dynamics - Best Researcher Award

Imperial College London - Singapore

AUTHOR PROFILE

SCOPUS

🚀 PASSION FOR ENGINEERING

Ethan's journey in the world of engineering began with an innate fascination for how scientific theories can be translated into innovative designs. This passion, which was kindled during his undergraduate studies, led him to pursue a Bachelor's degree in Mechanical Engineering with a specialization in Aerospace. His interest is rooted in the belief that engineering is an art—a meticulous blend of science and creativity that results in functional and groundbreaking designs. The awe-inspiring SpaceX Rocket serves as a testament to this belief, epitomizing the seamless integration of theory and practice, and further fueling Ethan's dedication to his field.

📚 ACADEMIC PURSUITS IN NUCLEAR POWER

Ethan is now advancing his academic journey by pursuing a Doctorate of Philosophy in Mechanical Engineering, with a focus on modeling and simulation within nuclear power plants. This specialization allows him to delve deeper into the complexities of mechanical systems and their applications in critical industries. His doctoral research represents the culmination of years of study and the pursuit of knowledge that began with his undergraduate exploration of engineering principles.

💡 INSPIRATION FROM REAL-WORLD APPLICATIONS

One of the pivotal moments in Ethan's academic career occurred during a lecture on Fluid Mechanics, where he was struck by the versatility of engineering principles. He witnessed how design constraints from cutting-edge aircraft could be applied to everyday items, like a syringe. This experience highlighted the ubiquitous nature of engineering in our daily lives and deepened his appreciation for the discipline.

🔬 RESEARCH EXPERIENCE

Ethan's research experience is both broad and impactful. As a Research Assistant at the National University of Singapore, he was involved in conducting surveys, developing research protocols, and creating reports that translated complex data into understandable formats. His work in this role honed his ability to design methodologies and operate research equipment, preparing him for the rigorous demands of his doctoral studies.

🔧 PRACTICAL ENGINEERING EXPERIENCE

In addition to his research, Ethan gained valuable practical experience as a Mechanical Engineering Intern at Daikin Air Conditioning Pte Ltd. Here, he worked closely with design engineers to review and approve tooling plans, assist in product transitions for production, and maintain mechanical systems. This hands-on experience provided Ethan with a deeper understanding of the mechanical products and processes that are integral to engineering.

📖 TEACHING AND MENTORSHIP

Ethan's commitment to education and mentorship is evident in his role as a Teaching Assistant at the National University of Singapore. He helped explain assignments, assisted in developing lesson plans, and played a key role in boosting student comprehension. His ability to convey complex engineering concepts in an accessible manner has made him a valuable mentor to aspiring engineers.

🌍 VISION FOR THE FUTURE

Ethan's journey in mechanical engineering is driven by a vision of applying his knowledge and skills to solve real-world problems, particularly in the context of nuclear power and aerospace. His academic and professional experiences have equipped him with a unique blend of theoretical knowledge and practical expertise, positioning him to make significant contributions to the field of engineering.

NOTABLE PUBLICATION

Effects of Different Momentum Ratios and Reynolds Number in a T-Junction with an Upstream Elbow
Authors: Y.H. Wong, L. Lampunio, Y. Duan, M.D. Eaton, M.J. Bluck
Journal: Nuclear Engineering and Design
Year: 2024

Dolat Khan – fluid dynamics – Best Researcher Award

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Dolat Khan - fluid dynamics - Best Researcher Award

KMUTT - Thailand

AUTHOR PROFILE

SCOPUS

ACADEMIC CAREER

Dolat Khan holds a PhD in Applied Mathematics with a focus on Fluid Dynamics from King Mongkut’s University of Technology Thonburi (KMUTT) in Bangkok, Thailand. His academic journey includes an MS by Research and an MSc in Applied Mathematics and Mathematics from City University of Science & Information Technology, Peshawar, Pakistan. He has excelled in his studies, receiving top grades and various scholarships throughout his educational career.

RESEARCH INTERESTS

Dolat's research interests encompass a wide range of topics in fluid dynamics and heat transfer. He focuses on exact solutions of both Newtonian and Non-Newtonian fluids, entropy generation, porous media, and nanofluids. His work explores complex phenomena such as magnetic hydrodynamics (MHD), fractional derivatives, and numerical analysis, contributing valuable insights to these fields.

MASTER'S AND PhD THESIS

His Master’s thesis explored the MHD flow of Casson fluid with and without nanoparticles over a vertical plate embedded in a porous medium. For his PhD, he investigated a generalized entropy generation analysis of Newtonian and Non-Newtonian fluids through various fractional operators, further advancing the understanding of fluid dynamics.

RESEARCH EXPERIENCE

Dolat has conducted significant research at various institutions, including a short-term research position at Cankaya University, Turkey, and as a research student at City University of Science & Information Technology, Pakistan. His work involves in-depth exploration of fluid dynamics and fractional derivatives, showcasing his expertise and dedication to advancing the field.

TEACHING EXPERIENCE

He has served as a Visiting Lecturer at City University of Science & Information Technology and a Lecturer at Muslim Education Complex, Peshawar. His teaching experience includes instructing and mentoring students in applied mathematics and fluid dynamics, demonstrating his commitment to education and academic development.

PROGRAMMING AND TECHNICAL SKILLS

Dolat is proficient in various programming languages and tools, including Python, MATLAB, Mathematica, and Maple. His skills extend to numerical analysis and scientific software, essential for conducting advanced research and simulations in fluid dynamics and heat transfer.

SCHOLARSHIPS AND AWARDS

Dolat has been recognized with several prestigious awards, including the Petchra Pra Jom Klao Doctoral Scholarship by KMUTT and a gold medal in his MSc program. He also received scholarships for his outstanding academic performance and was selected for a collaborative visit to China, highlighting his academic excellence and global engagement.

PUBLICATIONS

Dolat has authored numerous research papers in renowned journals, covering topics such as MHD flow, heat transfer, and nanofluids. His publications include influential works in Scientific Reports, Results in Physics, and Symmetry, reflecting his significant contributions to the field of applied mathematics and fluid dynamics.

NOTABLE PUBLICATION

Viscous Dissipation Effects on Time-Dependent MHD Casson Nanofluid Over Stretching Surface: A Hybrid Nanofluid Study.

Authors: Rehman, A., Khan, D., Mahariq, I., Abdelghany Elkotb, M., Elnaqeeb, T.
Year: 2024
Journal: Journal of Molecular Liquids

Heat Transfer Analysis of Mixed Convection Boundary Layer Blood Base Nanofluids with the Influence of Viscous Dissipation.

Authors: Rehman, A., Mahariq, I., Khan, D., Ghazwani, H.A.
Year: 2024
Journal: Case Studies in Thermal Engineering

Enhanced Heat Transfer in Viscoelastic Fluids with Periodic Magnetic Fields and Dusty Nanoparticles Between Two Parallel Plates Under Thermal Radiation.

Authors: Khan, D., Ali, G., Mahariq, I., Ahammad, N.A., Ali, M.R.
Year: 2024
Journal: Case Studies in Thermal Engineering

The Impact of Marangoni Convection on Carbon Nanotube Blood Base Hybrid Nanofluid with Thermal Radiation Viscous Dissipation and Couple Stress, Analytical Study.

Authors: Rehman, A., Khan, D., Jan, R., Mahariq, I.
Year: 2024
Journal: BioNanoScience

Exploring the Potential of Heat Transfer and Entropy Generation of Generalized Dusty Tetra Hybrid Nanofluid in a Microchannel.

Authors: Khan, D., Kumam, P., Watthayu, W., Jarad, F.
Year: 2024
Journal: Chinese Journal of Physics

Naoki Takeishi – Fluid Mehanics – Best Researcher Award

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Naoki Takeishi - Fluid Mehanics - Best Researcher Award

Kyushu University - Japan

AUTHOR PROFILE

GOOGLE SCHOLAR

PERSONAL INFORMATION

NAOKI TAKEISHI holds a Ph.D. in Biomedical Engineering from Tohoku University, Japan, and currently serves as an Associate Professor at the Department of Mechanical Engineering, Kyushu University, Japan.

PROFESSIONAL EXPERIENCES

Dr. Takeishi's career spans prestigious institutions globally, including roles as a Research Fellow at Tohoku University and Kyoto University, Japan, and as Assistant Professor at Osaka University. He has conducted research visits at MIT, USA, and KTH, Sweden, enriching his expertise in biomechanics and fluid mechanics.

EDUCATION

He completed his undergraduate studies in Mechanical Engineering at Shizuoka University, Japan, followed by a Master's in Biomedical Engineering at Tohoku University, where he later earned his Ph.D.

AWARDS

Dr. Takeishi has received numerous accolades, including the Papers of the Year Award from the Japan Society of Mechanical Engineering and the RYUMON Award for Distinguished Young Researcher in Fluid Mechanics. His achievements also include the Young Investigator Award from the Japan Society of Biorheology and the Rising Star Award at the ESCHM-ISCH-ISB Conference.

RESEARCH AREA

His research focuses on Computational Fluid Mechanics, Computational Biomechanics, Microcirculation, Suspension Rheology, Cell/Membrane Mechanics, Cancer Metastasis, and Cerebral Fluid dynamics.

PROFESSIONAL ENGAGEMENT

Dr. Takeishi actively contributes to advancing knowledge through research and serves in professional societies, enhancing understanding in biomechanics and engineering sciences.

NOTABLE PUBLICATION

Flow of a circulating tumor cell and red blood cells in microvessels 2015 (58)

Computational fluid dynamics assessment of congenital tracheal stenosis 2022 (6)

Enhanced axial migration of a deformable capsule in pulsatile channel flows 2023 (1)

Numerical analysis of viscoelasticity of two-dimensional fluid membranes under oscillatory loadings 2024

Cerebrospinal fluid flow driven by arterial pulsations in axisymmetric perivascular spaces: analogy with Taylor’s swimming sheet 2021 (8)