Sumanta Chaudhuri

Associate Professor

Dr. Sumanta Chaudhuri completed his Ph.D and M.Tech from IIT Kharagpur and B.E from REC Rourkela( currently NIT Rourkela). He has five years work experience in Bhabha Atomic Research Centre (BARC) as Scientific Officer. He has total 14 years of teaching experience. His research interest is in flow and heat transfer in non-Newtonian fluids, magnetohydrodynamic (MHD) and electromagnetohydrodynamic(EMHD) pumps, porous media flow, applications of various analytical and semi-analytical tools like homotopy perturbation method, traditional perturbation method, Adomian decomposition method (ADM), collocation method (CM), least square method (LSM) and their modifications in fluid flow and heat transfer problems. He has published in reputed Journals Heat Transfer (ASME), Numerical Heat Transfer, Part A and Part B, Journal of Thermal Science and Engineering Aplications, Journal of thermal Science and Engineering Progress. In addition, he has attended and published papers in National and International Conferences.

Profile Links

Email :
[email protected]
Scopus Id :
57201433829
Google Scholar :
https://scholar.google.com/citations?user=Lt_ewAoAAAAJ&hl=en&oi=ao

Social Links

Educational Qualification
Ph.D, Mechanical Engg. (IIT Kharagpur), M.Tech, Specilalization in Thermal Science and Engg (IIT Kharagpur), B.E. Mechanical Engg. (REC Rourkela)

Research Interests
Non-Newtonian fluid flow and heat Transfer, Porous Media flow, EMHD and MHD flow and heat transfer, Application of analytical and semi-analytical methods like HPM, ADM, LSM to heat transfer problems

Administrative Responsibility
FIC of Fluid Mechanics Lab, Coordinator Mentoring Committee

Awards & Honours
Reviewers of Journals ( Heat Transfer, International Communications in Heat and Mass Transfer, Alexandria Engg. Journal)
Journals/Conferences :
"1. Mohanty, R.L., Mishra, V.K., Chaudhuri, S. (2024). Temperature-dependent viscosity effects on heat transfer characteristics of grade three fluid in electromagnetohydrodynamic flow between large parallel plates maintained at uniform temperature. Heat Transfer, 53.
2. Mohanty, R.L., Chaudhuri, S., Chakraborty, P., Mishra, V.K., Sahu, K.B., Das, B. (2023). Assessment of heat transfer in large parallel plates with a narrow gap maintained at a constant temperature, Heat Transfer, 52, 4711-4731.
3. Singh, D.P. Rathore, S.K., Chaudhur, S. (2022). Performance assessment of non-Newtonian fluid in corrugated channels of various profiles: Heat Transfer and entropy generation study. Journal of Thermal Science and Engineering Applications.14.
4. Chaudhuri, S., Mohanty, R.L., Mshra, V.K. (2022). Convective heat transfer in electromagnetohydrodynamic flow of third grade fluids through large parallel plates: a study on effect of parametric variation on thermal characteristics. Sadhana, 47.
5. Chaudhur, S., Chakraborty, P., Das, M., Das, B. (2022). Magnetohydrodynamic mixed convection in a non-Newtonian third grade fluid flowing through vertical parallel plates: A semi-analytical study of flow and heat transfer. Heat Transfer, 51, 3373-3400.
6. Chaudhuri, S., Sinha, S., Chakraborty, P., Das, M., Sahoo, S., Das, B. (2021).Thermal characteristics of forced convection in combined pressure and shear-driven flow of a non-Newtonian third- grade fluid through parallel plates. Heat Transfer, 50, 6737-6756.
7. Kinage, A., Sahoo, S., Chaudhuri, S.(2021). Effects of different electrical arrangements and Thomson effect on the system performance as well as the optimum allocation of thermocouples in a self-driven two-stage TEC & TEG. Journal of Thermal Science and Engineering Progress. 25.
8. Saini, M.V., Rathore, S.K., Chaudhuri, S. (2021). Thermo-hydraulic and entropy generation analysis for non-Newtonian fluid flow through sinusoidal wavy wall channel. Numerical Heat Transfer, Part A: Applications.80, 22-42.
9. Chaudhuri, S. Rathore, S.K. (2020). An analytical investigation of pressure-driven flow and heat transfer of a Sisko fluid flowing through parallel plates with viscous dissipation. Sadhana, 45.
10. Chaudhuri, S., Das, P.K. (2018). Semi-analytical solution of the heat transfer including viscous dissipation in the steady flow of a sisko fluid in cylindrical tubes. Heat Transfer, 140.
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