Innovative Research Award
Hiranmoy Maiti
The University of Burdwan, India
Hiranmoy Maiti is an emerging researcher and mathematics educator specializing in fluid dynamics, nanofluid flow, heat transfer, and magnetohydrodynamics. He is currently serving as a State Aided College Teacher at A.K.P.C. Mahavidyalaya and has actively contributed to advanced mathematical modelling research through high-quality publications in reputed international journals. His research focuses on theoretical and computational fluid mechanics, particularly nanofluid transport phenomena, heat transfer mechanisms, and porous media flow analysis.
Abstract
Hiranmoy Maiti has established a strong academic presence in the field of fluid dynamics and nanofluid mechanics through theoretical investigations and computational modelling approaches. His scholarly contributions mainly involve magnetohydrodynamic flows, heat transfer analysis, entropy generation, hybrid nanofluid models, and porous media transport phenomena. His work integrates advanced mathematical techniques with practical engineering applications in thermal sciences and applied physics.
Keywords
Fluid Dynamics, Nanofluid Flow, Heat Transfer, Magnetohydrodynamics, Mathematical Modelling, Thermal Radiation, Porous Media, Computational Mathematics, Hybrid Nanofluid, Boundary Layer Flow.
Introduction
The study of nanofluids and magnetohydrodynamic flows has become increasingly significant in modern engineering and industrial applications. Researchers working in this area contribute to advancements in thermal management systems, energy transfer technologies, and industrial fluid processes. Hiranmoy Maiti has contributed substantially to these evolving domains through analytical and computational studies addressing nonlinear fluid flow behaviour, heat transfer enhancement, and transport phenomena under various physical conditions.
Research Profile
Hiranmoy Maiti completed his postgraduate studies in Mathematics from The University of Burdwan and later qualified several prestigious national examinations including CSIR-NET JRF, GATE, WB SET, and CTET. He has extensive teaching experience in undergraduate mathematics education and actively participates in research activities related to applied mathematics and fluid mechanics.
His research profile demonstrates interdisciplinary expertise combining mathematics, computational methods, and physical modelling. He has authored and co-authored more than twenty research publications in reputed international journals indexed in Scopus and other scientific databases.
Research Contributions
The research contributions of Hiranmoy Maiti focus on advanced fluid flow problems involving nanofluids, magnetic fields, thermal radiation, chemical reactions, and porous media. His studies provide analytical insights into industrial and engineering applications associated with heat transfer optimization and flow control mechanisms.
His work extensively employs mathematical modelling techniques including boundary layer theory, similarity transformations, numerical computation, and direct integration methods. Several of his publications investigate the combined effects of thermal radiation, chemical reactions, activation energy, Stefan blowing, and magnetohydrodynamic interactions in nanofluid systems.
Selected Publications
- Flow of viscous fluid over a still nanofluid in presence of shear, Forces in Mechanics, 2022.
- Scrutinization of unsteady MHD fluid flow and entropy generation: Hybrid nanofluid model, Journal of Computational Mathematics and Data Science, 2023.
- Existence of MHD boundary layer hybrid nanofluid flow through a divergent channel with mass suction and injection, Chemical Engineering Journal Advances, 2023.
- Magnetohydrodynamic Marangoni fluid flow, heat, and mass transfer over a radially stretching disk, Proceedings of the Institution of Mechanical Engineers, 2024.
- Hybrid nanofluid flow over an unsteady stretching/shrinking disk with thermal radiation, International Journal of Modern Physics B, 2024.
- Insight into Eyring–Powell nanofluid flow over a radially stretching disk with Stefan blowing, Multiscale and Multidisciplinary Modeling, Experiments and Design, 2025.
- Heat and Mass Transfer in MHD Bio-convective Radiative Flow of Casson Nanofluids, Thermal Advances, 2026.
Academic Achievements
- CSIR NET (June 2018) – LS with AIR-52
- CSIR NET (June 2019) – JRF with AIR-40
- GATE 2019 – AIR-611
- Qualified WB SET – 2020
- Qualified CTET Paper-I – 2021
Seminars & Conferences
Hiranmoy Maiti has actively participated in several national and international seminars, workshops, and conferences related to mathematical sciences and fluid dynamics. He has presented research papers on nanofluid flow, porous media transport, hybrid nanofluids, and convective heat transfer at reputed academic events organized by institutions including The University of Burdwan, Gauhati University, North-East Hill University, and A.K.P.C. Mahavidyalaya.
Award Suitability
Hiranmoy Maiti demonstrates strong research potential and academic excellence in the field of applied mathematics and fluid dynamics. His consistent publication record in reputed international journals, active participation in conferences, and contributions to nanofluid and heat transfer research make him highly suitable for recognition under the Best Researcher Award category of the Indian Scientist Awards.
His interdisciplinary approach integrating mathematics, computational analysis, and engineering applications contributes significantly to contemporary scientific research and promotes further advancement in thermal and fluid sciences.
Conclusion
Hiranmoy Maiti is an emerging researcher and dedicated educator whose contributions to fluid dynamics and nanofluid mechanics continue to gain academic recognition. Through advanced mathematical modelling, quality research publications, and active scholarly engagement, he has demonstrated commitment to scientific excellence and innovation in applied mathematics research.
External Links
References
- Magnetohydrodynamic Marangoni Fluid Flow, Heat, and Mass Transfer over a Radially Stretching Disk in the Presence of Heat Generation and Chemical Reaction. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 2026.
https://doi.org/10.1177/09544089251363845