Education 🎓

Dr. Kundu graduated with a B.E. in Mechanical Engineering from NIT Durgapur (1993) and an M.E. in Thermal Engineering from IIEST Shibpur (1995). He completed his Ph.D. in Mechanical Engineering from IIT Kharagpur in 2000. His academic journey reflects a strong foundation in thermal sciences and engineering, paving the way for his groundbreaking research in heat transfer, nanomaterials, and energy systems. His international exposure includes visiting faculty roles at Saga University, Japan, and Hanyang University, South Korea, enriching his expertise in global research methodologies.

Experience 💼

Dr. Kundu began his career as a Lecturer at Jalpaiguri Government Engineering College (1998-2002) and joined Jadavpur University in 2003, rising to Professor. He served as a Research Professor at Hanyang University, South Korea (2010-2012), under the Brain Korea 21 program. His international collaborations include research stints in Japan, the USA, Thailand, and Turkey. He has also been invited to join institutions like King Mongkut’s University of Technology, Thailand, and Sejong University, South Korea. His extensive teaching and research experience spans heat transfer, thermal systems, and energy optimization, making him a global leader in mechanical engineering.

Awards and Honors 🏆

Dr. Kundu has been recognized among the top 2% of global scientists by Stanford University (2020-2024). He received the Lifetime Achievement Award (2024), Outstanding Scientist Award (2021), and Distinguished Scientist Award (2017). Other accolades include the VIFFA Outstanding Faculty Award (2015), Teacher’s Excellence Award (2015), and Institutional Medal for Best Paper (1999). His contributions to thermal sciences and engineering have earned him international acclaim, with invitations to prestigious institutions worldwide. These honors reflect his dedication to advancing research and education in mechanical engineering.

Research Focus 🔬

Dr. Kundu’s research focuses on heat transfer in composite materials, nanomaterials, and biological systems. He explores applications in hyperthermia treatment, solar energy, thermal insulation, and thermoelectric generators. His work also includes analytical heat transfer, extended surface heat transfer, and electro-osmotic flow. By integrating fractional derivatives and advanced mathematical models, he addresses complex thermal challenges in engineering and biomedical fields. His research aims to optimize energy systems, improve thermal management, and develop sustainable technologies, contributing to global advancements in mechanical engineering and applied sciences.

Publication Top Notes 📚

1. Parametric optimization of solar air heaters with dimples on absorber plates using metaheuristic approaches.
2. Two-Dimensional Analysis of Absorber Plates in Solar Collectors with a Nonlinear Plate Temperature at the Tube Section.
3. Experimental and meta-heuristic optimization for the highest thermo-hydraulic performance of a solar air heater.
4. A Review of Artificial Intelligence Methods in Predicting Thermophysical Properties of Nanofluids.
5. A Review of Thermoelectric Generators in Automobile Waste Heat Recovery Systems.
6. Parametric Optimization of Solar Air Heaters Having Hemispherical Protrusion Roughness.
7. Analytical model for extremum analysis of moistened fins involving all nonlinear energy exchange processes.
8. Multi-objective optimization of electrokinetic energy conversion efficiency and entropy generation.
9. Exergy evaluation of integrated liquefier-cryocondensation and cryosorption helium purification systems.
10. Review and Analysis of Electro-Magnetohydrodynamic Flow and Heat Transport in Microchannels.

Conclusion 🌟

Dr. Balaram Kundu is a trailblazer in mechanical engineering, with a career marked by groundbreaking research, international collaborations, and numerous accolades. His contributions to heat transfer, nanomaterials, and energy systems have positioned him as a global leader in the field. Through his innovative research and dedication to education, he continues to inspire future generations of engineers and scientists, driving advancements in sustainable technologies and thermal sciences.