Selvam Chandrasekaran | Thermal Engineering | Best Researcher Award

Posted on by Academic achievements

Dr. Selvam Chandrasekaran | Thermal Engineering | Best Researcher Award

Dr. Selvam Chandrasekaran | Thermal Engineering – Assistant Professor at SRM Institute of Science and Technology, Chennai in India

Dr. C. Selvam is a leading researcher in thermal systems, renowned for his expertise in nanofluids, phase change materials (PCMs), and advanced heat transfer mechanisms. His groundbreaking contributions to the development of graphene-based suspensions and their application in energy systems have revolutionized the design and performance of thermal management systems, particularly in automotive and photovoltaic technologies. His research reflects a deep commitment to innovation and sustainability, positioning him as a prominent figure in mechanical engineering.

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Education

Dr. Selvam holds a Doctor of Philosophy (Ph.D.) in Mechanical Engineering from Anna University, Chennai, where his pioneering work on graphene-based nanofluids significantly advanced the field. His Master of Engineering (M.E.) degree in Refrigeration and Air Conditioning, also from Anna University, laid the foundation for his focus on advanced heat transfer materials. He earned his Bachelor of Engineering (B.E.) degree in Mechanical Engineering from Kanchi Pallavan Engineering College, where he developed his foundational understanding of thermal systems and energy efficiency.

Experience

Dr. Selvam has over a decade of academic and research experience. Currently, he is an Assistant Professor in the Department of Mechanical Engineering at SRM Institute of Science and Technology, Chennai. In this role, he combines teaching with cutting-edge research in thermal systems and materials. His career also includes extensive work on projects that enhance the efficiency of thermal and energy systems, bridging the gap between theory and practical applications.

Research Interests

Dr. Selvam’s research is at the intersection of nanotechnology and thermal systems, focusing on improving heat transfer mechanisms through innovative materials. His interests include graphene-based nanofluids, nano-enhanced PCMs, and the thermal management of photovoltaic and thermoelectric systems. By integrating nanotechnology with energy storage and transfer solutions, Dr. Selvam aims to address global challenges in energy efficiency and sustainability.

Awards

Dr. Selvam’s contributions to mechanical engineering have earned him multiple accolades. He has been recognized for his innovative research at international conferences and has received awards for his groundbreaking publications in leading journals. His achievements highlight his role as a thought leader in thermal systems and energy efficiency.

Publications

“Overall heat transfer coefficient improvement of an automobile radiator with graphene-based suspensions”International Journal of Heat and Mass Transfer (2017), cited by 127.
“Enhanced heat transfer performance of an automobile radiator with graphene-based suspensions”Applied Thermal Engineering (2017), cited by 122.
“Thermal conductivity enhancement of ethylene glycol and water with graphene nanoplatelets”Thermochimica Acta (2016), cited by 122.
“Enhanced thermal performance of a thermoelectric generator with phase change materials”International Communications in Heat and Mass Transfer (2020), cited by 99.
“Thermal conductivity and specific heat capacity of water–ethylene glycol mixture-based nanofluids with graphene nanoplatelets”Journal of Thermal Analysis and Calorimetry (2017), cited by 93.
“Performance improvement in concentrated photovoltaics using nano-enhanced phase change material with graphene nanoplatelets”Energy (2020), cited by 82.
“Thermal management of low-concentrated photovoltaic modules with phase change materials”Journal of Cleaner Production.

Conclusion

Dr. C. Selvam’s prolific contributions to thermal engineering and energy systems have significantly advanced the understanding and application of nanotechnology in heat transfer. His innovative research, spanning graphene-based nanofluids and nano-enhanced PCMs, has garnered widespread recognition in academia and industry. A dedicated educator and researcher, Dr. Selvam’s work embodies a commitment to sustainable energy solutions, making him a deserving candidate for the “Best Researcher Award.”

Prince Kumar | Thermal Engineering | Best Researcher Award

Posted on by Academic achievements

Dr. Prince Kumar | Thermal Engineering | Best Researcher Award

Postdoctoral Researcher | Geological Survey of Israel | Israel

Based on Prince Kumar’s resume and accomplishments, here is an evaluation for the “Best Researcher Award” focusing on strengths, areas for improvement, and a conclusion.

Strengths for the Award

  1. Expertise in Computational Fluid Dynamics (CFD): Prince Kumar’s specialization in CFD and his research on CO2 sequestration highlight his deep expertise in both theoretical and applied aspects of fluid dynamics. His ability to handle complex simulations using tools like ANSYS-Fluent, COMSOL, and TOUGH2/TOUGH3 demonstrates advanced technical proficiency.
  2. Innovative Research Contributions: His work on thermo-hydraulic transport characteristics, including the study of non-Newtonian nanofluids and hybrid nanofluids through wavy and porous channels, shows a high level of innovation. The publication of several articles in reputed SCI/SCIE journals underscores the impact and relevance of his research in advancing the field.
  3. Diverse Research Experience: Prince Kumar’s research spans a range of topics within fluid dynamics and thermal engineering, from turbulence in corrugated channels to CO2 sequestration. This broad research experience reflects his versatility and depth of knowledge.
  4. Strong Publication Record: With multiple papers published in high-impact journals and conferences, including a patent application, Prince Kumar has made significant contributions to the field. His research has received recognition from the academic community, further validating his expertise.
  5. Educational and Professional Background: His role as an assistant professor involved supervising projects and teaching a variety of courses, demonstrating his commitment to education and his ability to mentor and guide students effectively.

Areas for Improvement

  1. Broaden Research Impact: While Prince Kumar has a strong focus on CFD and CO2 sequestration, expanding his research into emerging areas or interdisciplinary fields could enhance his impact. For example, exploring applications of his work in new technological contexts or integrating his research with sustainability practices could broaden its relevance.
  2. Collaborative Networks: Increasing collaboration with researchers from different institutions or fields could provide new perspectives and enhance the breadth of his research. Building a more extensive professional network may also open opportunities for joint projects and funding.
  3. Grant and Funding Acquisition: Emphasizing his ability to secure research grants and funding could be beneficial. Highlighting successful grant applications or major funding sources in his profile would strengthen his case as a leading researcher.
  4. Public Engagement: Engaging more with the public or industry through outreach activities, workshops, or media could increase the visibility of his work and its real-world applications. This could also contribute to a more extensive societal impact.

Short Biography

Prince Kumar is a postdoctoral researcher at the Geological Survey of Israel (GSI) in Jerusalem, specializing in computational fluid dynamics (CFD) and modeling for CO2 sequestration in deep geological saline aquifers. With a Ph.D. in Mechanical Engineering from the National Institute of Technology Silchar, India, he has made significant contributions to the study of thermo-hydraulic transport characteristics and CO2 storage technologies. His professional journey includes teaching roles and project supervision, reflecting his commitment to both research and education. Prince Kumar’s work is recognized for its innovation and impact in advancing sustainable technologies and fluid dynamics research.

Profile

ORCID

Education

Prince Kumar earned his Ph.D. in Mechanical Engineering from the National Institute of Technology Silchar, India, in November 2023. His doctoral research focused on the investigation of thermo-hydraulic transport characteristics in wavy and porous channels. Prior to this, he completed his M.Tech. in Thermal Engineering at the same institution in 2017, where he studied hydrodynamic and thermal transport in turbulent flows through corrugated channels. He holds a B.Tech. in Mechanical Engineering from Dr. A. P. J. Abdul Kalam Technical University, India, completed in 2012.

Experience

Prince Kumar is currently a postdoctoral researcher at GSI – Geological Survey of Israel, where he is involved in modeling CO2 storage in the Negev Desert’s deep aquifers. His role includes constructing numerical models for CO2 injection and analyzing data using Matlab and OriginPro. Previously, he served as an Assistant Professor at Jorhat Engineering College, Assam, India, from January 2018 to August 2023. In this role, he taught courses on CFD, fluid mechanics, and heat transfer, and supervised undergraduate projects. His academic responsibilities extended to organizing workshops and managing internships.

Research Interest

Prince Kumar’s research interests lie in computational fluid dynamics, thermo-hydraulic transport, and sustainable technologies. His work primarily focuses on modeling and simulation of fluid flow and heat transfer, including the study of nanofluids, non-Newtonian fluids, and CO2 sequestration in deep saline aquifers. He is also interested in advancing methodologies for analyzing complex fluid systems and improving energy efficiency through innovative engineering solutions.

Awards

Prince Kumar has been recognized for his exceptional research contributions through various awards and acknowledgments. His innovative work on thermo-hydraulic transport and CO2 sequestration has been highlighted in numerous international publications, underscoring his impact in the field of fluid dynamics and sustainable technology.

Publication

Prince Kumar and Ritesh Dwivedi, (2024) “Thermo-hydraulic transport characteristics of non-Newtonian nanofluid flow through wavy channel: Influence of nanoparticle volume fraction and Prandtl number,” Numerical Heat Transfer, Part A: Applications. Link

Prince Kumar, Ritesh Dwivedi & K. M. Pandey, (2023): “Hybrid-nanofluid Flow through Partially Porous Wavy Channels: Thermo-hydraulic Performance and Entropy Analysis,” Heat Transfer Engineering. Link

Prince Kumar, Ritesh Dwivedi & K. M. Pandey (2022): “Numerical investigation of thermo-hydraulic transport characteristics of laminar flow through partially filled porous wavy channel: Effect of Prandtl number,” Numerical Heat Transfer, Part A: Applications. Link

Prince Kumar, K. M. Pandey (2022), “Effect of Porous Slab Thickness and Darcy Number on Thermo-Hydraulic Transport Characteristics of Ag-TiO2/Water Hybrid Nanofluid Flow Through Partially Porous Wavy Channels,” Heat Transfer. Link

Prince Kumar and K. M. Pandey, (2021) “Numerical investigation of thermo-hydraulic transport characteristics of two-dimensional, steady flow through partially porous wavy channel,” Numerical Heat Transfer, Part A: Applications. Link

Conclusion

Prince Kumar is a highly qualified candidate for the “Best Researcher Award.” His extensive expertise in computational fluid dynamics, innovative research contributions, and solid publication record are notable strengths. Addressing areas for improvement, such as broadening research impact and expanding collaborative efforts, could further enhance his profile. Overall, his dedication to advancing hydro-thermal engineering and his substantial contributions to the field make him a strong contender for this award.