Md Salim Newaz Kazi | Characterization of fibres and fouling mitigation | FRP Academic Excellence Award

Prof Dr. Md Salim Newaz Kazi | University Malaya | Malaysia

Professional Profiles:

Early Academic Pursuits

His academic journey with a background in Mechanical Engineering. His academic qualifications include a B.Sc. in Engineering (Mechanical), M.Sc. in Engineering (Mechanical), Master of Engineering (Mechanical), and a Ph.D. in Chemical and Materials Engineering. This robust academic foundation reflects his commitment to multidisciplinary knowledge.

Professional Endeavors

With 18 years of engineering service experience in petrochemical industries and chemical plants, Professor Newaz brought valuable industry insights when transitioning to academia in 2009. He has served as a senior engineer and plant manager, contributing to plant design, troubleshooting, and maintenance. His role as a consultant for various engineering companies further enriched his practical expertise.

Contributions and Research Focus

His specializes in Heat Transfer, Fluid Mechanics, Particle Characterization, Heat Exchanger Fouling Mitigation, Nanofluid Synthesis and Applications, and Renewable Energy. His research efforts extend to areas such as energy transportation, effects of stable metallic nanofluids, and the hydrothermal and energy analysis of solar collectors. His work includes the development of novel nanofluids and their applications in thermal systems.

Accolades and Recognition

His contributions to research and innovation have earned him recognition and accolades. Notably, he was selected as one of the highly cited researchers in mixed mode by Web of Science in 2019. He was also recognized as one of the top 2 percent scientists globally for the years 2019 and 2022. These acknowledgments highlight the impact and influence of his research in the scientific community.

Impact and Influence

With an impressive h-index of 60 and over 11,900 citations, Professor Newaz's research has significantly influenced the field of thermal engineering. His work on nanofluids, heat exchanger fouling mitigation, and renewable energy has contributed to advancements in understanding and applications in these areas. His active participation in international conferences and keynote speeches underscores his influence in disseminating knowledge.

Legacy and Future Contributions

His legacy lies in his extensive academic and industrial contributions. Having supervised numerous Ph.D. and Master theses, authored technical papers, book chapters, and patents, he has shaped the academic landscape. His commitment to research, recognition as a top scientist, and active role in editorial boards underscore his dedication. In the future, his continued research endeavors are likely to contribute further to the field of thermal engineering, with a focus on sustainable and innovative solutions.

Notable Publications:

 

 

Mohamed Diab | Composite Materials Science | Best Researcher Award

Professional Profiles:

Early Academic Pursuits

Mohamed Ragab Diab's academic journey began at Kafrelsheikh University, Egypt, where he pursued Mechanical Engineering. His dedication led him to an M.Sc. in Energy Engineering, specializing in solar desalination. These formative years laid the foundation for his passion for renewable energy and materials engineering.

Professional Endeavors

Diab's career took off as a Researcher and Assistant Lecturer at Kafrelsheikh University, where he mentored students, facilitated lab sessions, and aided in course material development. This role honed his skills in experimental methodologies and teaching, setting the stage for his transition to Kyushu University as a PhD student.

Contributions and Research Focus

Diab's research contributions are notably focused on nanodiamond composites, hard coatings, and thin films. His notable publications showcase a keen interest in the mechanical and structural analysis of nanodiamond composite films. Additionally, his work in solar desalination technologies stands out, exploring innovative designs and experimental investigations to enhance distillation efficiency.

Accolades and Recognition

His academic prowess is highlighted by a series of publications in renowned journals. Diab's commitment to advancing knowledge in nanomaterials and renewable energy has earned him recognition within the scientific community.

Impact and Influence

Through his research and academic roles, Diab has made strides in understanding material properties and enhancing solar distillation techniques. His contributions have the potential to influence advancements in fields ranging from materials science to renewable energy technologies.

Legacy and Future Contributions

Diab's legacy lies in his multidisciplinary approach, combining mechanical engineering, materials science, and renewable energy. His ongoing pursuits at Yoshitake's Lab indicate a continued dedication to pushing the boundaries of nanomaterials and their applications in renewable energy technologies. His future contributions are anticipated to further enrich these domains, potentially impacting sustainability initiatives and materials engineering innovations worldwide.

Notable Publications:

Citations:

                   Citations            143           143
                    h-index                 5                5
                   i10-index               5                5