Mohammad Hamdan | microchannels | Best Researcher Award

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Prof. Mohammad Hamdan |  microchannels | Best Researcher Award

Professor at American University of Sharjah, United Arab Emirates

A distinguished academic and professional, the individual is currently a professor and researcher in the Mechanical Engineering Department. With an extensive background in microfluidics, heat transfer, and thermal management, their leadership in High-Performance Computing (HPC) and mentoring graduate students highlights their passion for innovation. A dedicated educator, they have successfully guided numerous Ph.D. and M.S. candidates, emphasizing interdisciplinary research. Their extensive managerial experience in organizing global forums and conferences speaks to their leadership and organizational acumen.

 

Publication Profile

scholar

Education🎓 

Ph.D. in Mechanical Engineering from University of Cincinnati, USA (2003) – Focused on Microfluid Flow & Heat Transfer and MEMS. M.S. in Mechanical Engineering from Jordan University of Science and Technology, Jordan (1999) – Specializing in Computational Fluid Dynamics (CFD) and Energy. B.Sc. in Mechanical Engineering from Jordan University of Science and Technology, Jordan (1997) – Concentrating on Fluid Dynamics, Thermal Science, and Energy Conversion. 📚🧑‍🎓

Experience💼

Lead of HPC Lab, Mechanical Engineering Department (2022-2024). Graduate Studies Coordinator, American University of Sharjah (AUS) (2016-2022). Graduate Studies Coordinator, UAEU (2015-2016). Program Chair, IRECGA’14 at UAEU (2013-2014). Lead Project Engineer, GE (2005-2007) – Led projects totaling $2M ASME Student Advisor and Course Coordinator at UAEU (2008-2013).

Awards and Honors🏆

Recognition for Outstanding Research in Thermal Management at UAEU. Best Paper Award at IRECGA Conference 2012. Distinguished Service Award for contributions to ASME student chapters. Excellence in Supervision – Outstanding mentoring of M.S. and Ph.D. students. Leadership Recognition at Dubai Global Energy Forum.

Research Focus🔬

Thermal Management in applications like solar energy and intermittent applications. Innovative design of heat pipes, phase change materials, and metal foam. Microfluidics and MEMS for advanced energy systems. Nondestructive testing using eddy current thermography. Energy conversion and methane/hydrogen transportation modeling.

Publication  Top Notes

Enhancing Heat Transfer in Parallel-Plate Channels by Using Porous Inserts (2001) – This paper, published in International Journal of Heat and Mass Transfer, explores enhancing heat transfer in parallel-plate channels by inserting porous materials. The findings provide a solution to improving thermal performance in industrial applications. 🔥💨

Analysis of a Solar Chimney Power Plant in the Arabian Gulf Region (2011) – Published in Renewable Energy, this work focuses on assessing the viability of solar chimney power plants in the Arabian Gulf, a critical region for renewable energy studies. 🌞🌍

Experimental Study of Vortex Tube Energy Separation under Different Tube Design (2018) – Published in Experimental Thermal and Fluid Science, it examines the energy separation performance of vortex tubes based on different tube designs, contributing to better energy utilization in cooling systems. 🌀⚡

Hydrogen Supplement Co-Combustion with Diesel in Compression Ignition Engines (2015) – This study, published in Renewable Energy, investigates the performance of compression ignition engines fueled by a hydrogen-diesel blend, promoting eco-friendly combustion methods. 🚗💨

Analysis of Solar Chimney Power Plant Utilizing Chimney Discrete Model (2013) – Published in Renewable Energy, this paper models solar chimney power plants for better energy efficiency and sustainable energy generation. 🌞🏭

Loop Heat Pipe (LHP) Development by Utilizing Coherent Porous Silicon (CPS) Wicks (2002) – The paper discusses the development of loop heat pipes (LHP) using advanced CPS wick materials for improved thermal performance in various aerospace applications. 🚀❄️

On Forced Convection in Channels Partially Filled with Porous Substrates (2002) – Published in Heat and Mass Transfer, this research examines the impact of porous substrates on forced convection, offering insights into fluid dynamics and heat transfer enhancement. 🌬️🔬

Experimental Investigation of Dual Engine Performance Using Variable LPG Composition Fuel (2013) – This study, published in Renewable Energy, evaluates the performance of engines running on LPG and its impact on efficiency and emissions. 🔋💡

Comparative Effectiveness of Different Phase Change Materials to Improve Cooling Performance of Heat Sinks for Electronic Devices (2016) – Published in Applied Sciences, this paper investigates various phase change materials (PCMs) for improving the cooling performance of heat sinks, crucial for electronic devices’ longevity. 🖥️❄️

Review of Hydrogen-Gasoline SI Dual Fuel Engines: Engine Performance and Emission (2023) – A comprehensive review published in Energy Reports that discusses the performance and emission characteristics of hydrogen-gasoline dual fuel engines. 🛠️⚡

 

Conclusion

The candidate’s background, leadership skills, and significant contributions to both academia and industry make them a strong contender for the Best Researcher Award. Their impressive educational credentials, coupled with extensive managerial roles and supervision of high-caliber research, establish them as a well-rounded leader in their field. With a bit more focus on interdisciplinary collaboration and increasing their publication impact, they are poised to further shape the future of mechanical engineering research in thermal management and fluid dynamics. Their work holds great potential for advancing technologies that influence critical areas such as energy efficiency, sustainability, and innovation in heat transfer systems.

Gyo Soon Kim | CFD | Best Researcher Award

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Mr.  TAE SUNG S&E,Department of Mechanical Engineering, Kyung Hee University, South Korea

Mr. Gyo Soon Kim is currently a Ph.D. candidate in Mechanical Engineering at Kyung Hee University, Suwon, Korea, under the guidance of Dr. Junmo Koo. With a solid foundation in mechanical engineering, having completed an M.S. at Ajou University,Mr. Gyo Soon Kim has led several government-sponsored research projects. These include the development of a technology for achieving over 65% thermal substitution rate in cement kilns through optimized waste plastic supply and combustion processes (2023), safety verification systems for spent nuclear fuel disposal sites (2021), and LNG fuel supply system technology for coastal ships (2019). His expertise in these areas underscores his leadership in advancing critical technologies for energy and environmental sustainability.

Professional Profiles:

Scopus

Education 🎓

Ph.D. Candidate in Mechanical Engineering, Kyung Hee University, Suwon, Korea (Present)Advisor: Dr. Junmo KooFocus: Advanced thermal and energy systems, with ongoing research in optimizing energy efficiency.M.S. in Mechanical Engineering, Ajou University, Suwon, Korea (Feb 2005)Advisor: Dr. Yunho ChoiSpecialized in mechanical system design and energy process engineering.

Employment History 🛠️

Team Leader, Technical Division, TAE SUNG S&E (2013.4 – Present)Leading the technical division, overseeing advanced engineering projects, and driving innovation in energy systems.Team Leader, Technical Division, CD-adapco Korea (2012.3 – 2013.4)Managed a team focused on computational fluid dynamics (CFD) and simulation technology, delivering cutting-edge solutions.Manager (Engineer), Technical Division, TAE SUNG S&E (2010.4 – 2012.3)Contributed to the development of energy-efficient technologies, focusing on process optimization and system integration.Manager (Engineer), Technical Division, Next E&E Co., Ltd. (2009.9 – 2010.3)Worked on engineering projects related to environmental sustainability, emphasizing clean energy solutions.Manager (Engineer), Technical Division, ATES Co., Ltd. (2005.8 – 2009.9)Played a crucial role in designing and implementing engineering solutions in the energy sector.

Projects 🚀

Development of Technology for Cement Kiln Thermal Substitution Rate Over 65% by Uniform Waste Plastic Supply and Combustion Process Optimization (2023)As the Research Director, led a five-year project funded by MOTIE to develop a groundbreaking technology that enhances cement kiln thermal efficiency by over 65% through optimized waste plastic supply and combustion processes.Evaluation Technology for Spent Nuclear Fuel Disposal Site and Safety Verification System Construction (2021)Directed a nine-year MOTIE-funded project focused on constructing a robust safety verification system for spent nuclear fuel disposal sites, ensuring compliance with stringent safety standards.LNG Fuel Supply System Technology Development for Coastal Ships (2019)Managed a four-year project funded by MOTIE, aimed at developing an LNG fuel supply system for coastal ships, contributing to the maritime industry’s transition to cleaner energy sources.

Strengths for the Award

  1. Extensive Experience in Industry and Research: The individual has a robust background in engineering with significant roles in various technical divisions, including leadership positions at TAE SUNG S&E and CD-adapco Korea. This extensive experience provides a strong foundation for understanding and leading advanced research projects.
  2. Advanced Education: The individual is a Ph.D. candidate in Mechanical Engineering at Kyung Hee University, which highlights a commitment to advancing their knowledge and expertise in the field.
  3. Government-Sponsored Projects: The person has led several high-profile projects funded by the Ministry of Trade, Industry, and Energy (MOTIE), showcasing their capability in managing substantial research and development initiatives. These projects cover critical areas such as cement kiln thermal optimization, nuclear fuel disposal, and LNG fuel systems.
  4. Innovative Projects: Their projects focus on technology development and optimization, including cutting-edge topics like waste plastic utilization and safety systems for nuclear fuel. This reflects a commitment to addressing contemporary challenges and advancing technological solutions.

Areas for Improvement

  1. Publication Record: The provided information does not include details about the individual’s publication record. A strong track record of peer-reviewed publications would enhance their candidacy, showcasing their contributions to academic and practical knowledge in the field.
  2. Broader Research Impact: While the projects are significant, providing more details on the impact of these projects on industry practices, technology advancement, and academic contributions could strengthen their application.
  3. Collaboration and Outreach: Demonstrating involvement in collaborative research or partnerships with other institutions could enhance their profile. Additionally, engagement in academic conferences or workshops could highlight their contribution to the broader research community.

✍️Publications Top Note :

Title: Granule Efficiency Evaluation Process Using Two-Way CFD-DEM Coupling Analysis
Authors: S.J. Lee, H.S. Ahn, J.H. Lee, G.S. Kim, J.H. Cho
Journal: Chemical Engineering Journal
Year: 2024
Volume: 498
Article Number: 155123

Conclusion

The individual has a solid foundation for being considered for the Best Researcher Award due to their extensive experience in engineering, advanced education, and leadership in substantial government-sponsored projects. To strengthen their candidacy, focusing on enhancing their publication record, showcasing the broader impact of their research, and demonstrating collaborative efforts could further solidify their suitability for the award.