Prof Vahid Esfahanian | Fluid Mechanics | Best Researcher Award.

University of Tehran, Iran

Professional Profiles:

👨‍🎓 Bio Summary:

Professor Vahid Esfahanian is a prominent figure in the field of Mechanical Engineering, currently serving as a Professor at the University of Tehran. He has made significant contributions to the field through his leadership roles, research, and academic endeavors, particularly in vehicle technology, alternative fuels, and environmental engineering. His extensive experience and numerous accolades highlight his standing in the academic and research communities

🎓 Educational Background:

Professor Vahid Esfahanian has a solid educational foundation in Mechanical Engineering, which has laid the groundwork for his distinguished career in academia and research. He completed his undergraduate studies in Mechanical Engineering, which provided him with a comprehensive understanding of fundamental engineering principles. He further advanced his education by pursuing graduate studies, where he specialized in areas that would later become the focus of his research and professional work. Throughout his academic journey, Professor Esfahanian has gained a deep and broad expertise in mechanical systems, fluid dynamics, and vehicle technology, which he has applied extensively in his teaching, research, and industrial projects. His educational background has been instrumental in shaping his contributions to the field and his ability to mentor the next generation of engineers.

🔍 Awards and Prizes:

Professor Esfahanian has received numerous prestigious awards throughout his career, underscoring his exceptional contributions to applied research and technology development. Notable among these are the Khwarizmi International Awards, where he secured first, second, and third places in various years. His achievements have also been recognized internationally, as evidenced by the Gold Medal of UNESCO for Fundamental Science and the COMSATS Awards. These accolades reflect his pioneering work and his impact on both national and international levels.

🏆 Keynote Talks:

Professor Esfahanian has been invited to deliver keynote speeches at several high-profile conferences, further demonstrating his expertise and leadership in the field. His talks have covered a range of topics, including the introduction of the first hybrid bus in Iran, modeling and simulation of lead-acid batteries, and the benefits and challenges of electric vehicles. These invitations highlight his reputation as a thought leader and innovator in mechanical engineering and alternative fuel technologies.

💼 Industrial Projects:

In addition to his academic contributions, Professor Esfahanian has been involved in several industrial projects that have had a tangible impact on the engineering industry. These projects include the design and simulation of manifolds, decarbonization of vehicle engines to reduce air pollution, and the development of hybrid urban buses. His work in these areas demonstrates his ability to translate academic research into practical applications, benefiting both industry and society.

📚 Top Noted Publications :

Title: “A Review of Battery Electric Vehicle Technology and Readiness Levels”
Authors: A.M. Andwari, A. Pesiridis, S. Rajoo, R. Martinez-Botas, V. Esfahanian
Journal: Renewable and Sustainable Energy Reviews
Citations: 860
Published: 2017

Title: “Optimum Sizing and Optimum Energy Management of a Hybrid Energy Storage System for Lithium Battery Life Improvement”
Authors: M. Masih-Tehrani, M.R. Ha’iri-Yazdi, V. Esfahanian, A. Safaei
Journal: Journal of Power Sources
Citations: 218
Published: 2013

Title: “Thermal Analysis of an SI Engine Piston Using Different Combustion Boundary Condition Treatments”
Authors: V. Esfahanian, A. Javaheri, M. Ghaffarpour
Journal: Applied Thermal Engineering
Citations: 174
Published: 2006

Title: “Deep Neural Networks for Nonlinear Model Order Reduction of Unsteady Flows”
Authors: H. Eivazi, H. Veisi, M.H. Naderi, V. Esfahanian
Journal: Physics of Fluids
Citations: 166
Published: 2020

Title: “Numerical Simulation of a Novel Spiral Type Ground Heat Exchanger for Enhancing Heat Transfer Performance of Geothermal Heat Pump”
Authors: R. Saeidi, Y. Noorollahi, V. Esfahanian
Journal: Energy Conversion and Management
Citations: 109
Published: 2018

Conclusion:

Given his extensive achievements, contributions to applied research, leadership in industrial projects, and active participation in the academic and professional communities, Professor Vahid Esfahanian is highly suitable for the Best Researcher Award. His work has had a significant impact on mechanical engineering and related fields, making him a deserving candidate for this recognition.

👨‍🎓 Bio Summary:

Dr. Randeep Singh is a Thermal Product Manager at Fujikura Automotive Europe (Germany) and a Senior Engineer at Fujikura Ltd. (Tokyo). He is responsible for project management and technical development related activities for two-phase and single-phase (liquid) thermal solutions for consumer electronics, automotive, and aviation applications. Dr. Singh’s career objective is to excel as a professional executive and serve the corporate to the utmost of his ability and knowledge.

🎓 Education:

Dr. Singh completed his Bachelor of Technology in Mechanical Engineering from Beant College of Engineering and Technology, Punjab Technical University, Punjab, India. He later pursued a Doctor of Philosophy (Thermal Sciences) from the Royal Melbourne Institute of Technology (RMIT) in Melbourne, Victoria, Australia.

🔍 Research Focus:

Dr. Singh’s research focuses on thermal control, particularly in high-powered desktop and laptop microprocessors, using two-phase and single-phase loop cooling systems. He has also worked on environmental-friendly replacements for refrigerants like R22 and R502.

👩‍💼 Professional Journey:

Dr. Singh’s professional journey has been marked by a progression from research and academic roles to leadership positions in the thermal solutions industry. He has demonstrated a strong commitment to innovation and technical excellence throughout his career, leading to numerous honors and awards.

🏆 Honors & Awards:

Dr. Singh has received several awards for his work, including the Technical Achievement Award of the Heat Transfer Society of Japan, the Fujikura Patent Meister Award, and the Best Paper award from the International Heat Pipe Conference. He has also received annual patent awards from Fujikura Thermal Technology Division and postgraduate research awards from RMIT University.

Professional Experience: 💼

Dr. Singh has a diverse professional journey, starting as a Quality Assurance Intern at Whirlpool Ltd. (Faridabad, India) in 2001. He then moved on to research and academic roles at RMIT University in Melbourne, Australia, where he served as a Researcher, Tutor, and later as a Research Fellow, Lecturer from 2003 to 2010. His industry experience includes roles such as Senior Thermal Engineer and Project Manager at Fujikura Electronics Company in Tokyo, Japan, and various positions at Fujikura Automotive Europe, GmBH in Germany and Japan.

📚 Top Noted Publications :

“A review of car waste heat recovery systems utilizing thermoelectric generators and heat pipes” by B. Orr, A. Akbarzadeh, M. Mochizuki, and R. Singh, published in Applied Thermal Engineering in 2016. This paper discusses the use of thermoelectric generators and heat pipes in car waste heat recovery systems.

“The effects of norethisterone in postmenopausal women on oestrogen replacement therapy: a model for the premenstrual syndrome” by A.L. Magos, E. Brewster, R. Singh, T. O’Dowd, M. Brincat, and J.W.W. Studd, published in BJOG: An International Journal of Obstetrics & Gynaecology in 1986. This paper explores the effects of norethisterone in postmenopausal women on estrogen replacement therapy, serving as a model for the premenstrual syndrome.

“Microbial pectinases: an eco-friendly tool of nature for industries” by G. Garg, A. Singh, A. Kaur, R. Singh, J. Kaur, and R. Mahajan, published in 3 Biotech in 2016. This paper discusses the use of microbial pectinases as an eco-friendly tool for various industries.

“Battery thermal management system for electric vehicle using heat pipes” by J. Smith, R. Singh, M. Hinterberger, and M. Mochizuki, published in the International Journal of Thermal Sciences in 2018. This paper presents a battery thermal management system for electric vehicles using heat pipes.

“Receptors for the carboxyl-terminal region of PTH (1–84) are highly expressed in osteocytic cells” by P. Divieti, N. Inomata, K. Chapin, R. Singh, H. Juppner, and F.R. Bringhurst, published in Endocrinology in 2001. This paper discusses the high expression of receptors for the carboxyl-terminal region of PTH (1–84) in osteocytic cells.

Author Metrics 📊 :

Dr. Singh’s research contributions are reflected in his author metrics, with an h-index of 21 and an RG Score of 27.33, showcasing the impact and relevance of his work in the field of thermal sciences.

📅 Research Timeline:

Dr. Singh’s research timeline spans from his early academic years to his current role as a Thermal Product Manager, showcasing his continuous commitment to advancing the field of thermal sciences and engineering.