Dr. Bali Ram Gupta

Dr. B. R. Gupta completed his B.Sc. from Ewing Christian College, Prayagraj, in 2002. He obtained his M.Sc. and Ph.D. in Mathematics from the University of Allahabad, Prayagraj, in 2004 and 2010, respectively. He qualified GATE (2004) and CSIR-UGC NET multiple times—NET (LS) in 2003 and 2004, and NET (JRF) in 2005. During his doctoral studies, he was awarded both the Junior Research Fellowship (JRF) and Senior Research Fellowship (SRF) by the Ministry of Human Resource Development, Government of India.

His research areas include low Reynolds number hydrodynamics, transport phenomena in porous media, multiphase flow, magnetohydrodynamics (MHD), and boundary value problems. Prior to joining Jaypee University of Engineering and Technology, Guna, in 2010, he served at HMFAM Institute of Engineering & Technology, Prayagraj. Dr. Gupta has guided three Ph.D. scholars and is currently supervising one more. He has published more than twenty-one research papers in reputed peer-reviewed international journals and has presented his research at several national and international conferences.

He is a life member of several professional organizations, including Indian Science Congress Association, Indian Society for Technical Education, Indian Society of Theoretical and Applied Mechanics, Indian Mathematical Society, International Academy of Physical Sciences, and Indian Society of Biomechanics.

Ph. D. Supervision:

List of publication

(1) Stokes flow past a swarm of porous approximately spheroidal particles with Kuwabara  boundary condition, Acta Mechanica 203(3-4), pp 241-254, 2009.

(2) Drag on a porous sphere embedded in another porous medium, Journal of porous media, Vol. 13(11), pp 1009-1016, 2010.

(3)  Stokes flow of micropolar fluid past a porous sphere with non-zero boundary condition for microrotations, International journal of fluid mechanics research Vol. 37(5), pp 424-434 (2010).

(4)  Drag on a fluid sphere embedded in porous medium, Adv. Theor. Appl. Mech., Vol 3(1), pp 45-52 (2010).

(5) Axisymmetric creeping flow of a micropolar fluid over a sphere coated with a thin fluid film, Journal of Applied Fluid Mechanics, Vol. 6, No. 2, pp. 149-155, 2013.

(6) Drag on Reiner-Rivlin liquid sphere placed in a micro- polar fluid with non-zero boundary condition for microrotations, International Journal of Applied Mathematics and Mechanics, Volume 10, Issue 7, pp 90-103, October 2014.

(7)  Wall effects on Reiner-Rivlin liquid spheroid, Applied and Computational Mechanics, Volume 8, Issue 2, pp157-176, December 2014.

 (8)  Brinkman flow of a viscous fluid past a Reiner-Rivlin liquid sphere immersed in a saturated porous medium, Transport in Porous Media, Volume 107, Issue 3, pp 907-925, April 2015.

(9)  Stokes flow over composite sphere: Liquid core with permeable layer, Journal of Applied Fluid Mechanics., Volume 8, Issue 3, pp 339-350, July 2015.

(10) Stokes flow of micropolar fluid past a non-Newtonian liquid spheroid, International Journal of Fluid Mechanics Research, Vol. 42 Issue 2, pp 170-189, 2015.                       

(11)  Cell models for viscous flow past a swarm of Reiner–Rivlin liquid spherical drops, Meccanica, Volume 52, Issue 1-2, pp 69-89,  2017.

(12) Drag on a permeable sphere placed in a micropolar fluid with non-zero boundary condition for microrotations, Journal of applied mathematics and computational Mechanics, Volume 15, Issue 3, pp. 97–109, 2016.

 (13)  Stokes Flow over a Non‐Newtonian Encapsulated Drop of Another Liquid: Effect of Stress Jump, Journal of porous media, Vol. 20(9), pp.807–821, 2017.

(14) Motion of a permeable shell in a spherical container filled with non-Newtonian fluid, Applied Mathematics and Mechanics, Vol. 38 (12), pp.1697–1708,  2017.

(15)  Drag Experienced by a Composite Sphere in an Axisymmetric Creeping Flow of Micropolar Fluid,  Journal of Applied Fluid Mechanics,  Vol 11(4), pp.995–1004,  2018.

(16) Impact of Magnetic Field on the Creeping Flow Past a Slightly Deformed Sphere, JUET Research Journal of Science & Technology, Vol. 6, PP 22-28, 2020.

(17) Creeping flow around a spherical particle covered by semipermeable shell in presence of magnetic field, IOP Conf. Ser.: Mater. Sci. Eng., Vol. 1136, June 2021.

(18) Magnetic effect on the creeping flow around a slightly deformed semipermeable sphere”, Archive of Applied Mechanics, Vol 92, pp. 241–254 , 2022.

(19) Slip at the surface of slightly deformed sphere in MHD flow, Special Topics & Reviews in Porous Media, Vol 13(1), pp.1-14,   2022.

(20)  Impact of Magnetic Field on the Flow of a Conducting Fluid Past an Impervious Spheroid Embedded in Porous Medium, Int. J. Appl. Comput. Math 8 (3), 2022.

(21)  Drag exerted by a micropolar fluid on a dense swarm of permeable spherical particles, Archive of Applied Mechanics, Vol 92, pp.3417-3431, 2022.

Patents:

1)      AI based air traffic control system, 2023, Design number 379398-001.

2)      Revolutionizing Bio-Mechanics and Fluid Dynamics with AI in the New Era, 2025, 202541014777 A.

Books and Book Chapters:

Bali Ram Gupta and Vandana Mishra, Mechanics of Solids, ISBN: 978-93-48684-55-4, e-ISBN 9789348684196,  Indo-Continental Academic Publishers, 2025. https://doi.org/10.5281/zenodo.15259404

D. Gupta, K. B. Reddy, K. Neelima, S. S. Pathan, Bali Ram Gupta, P. Rajeshwari, and P. P. Gupta, “Integrating AI and Digital Twins for Real-Time Fault Identification in Wind Turbines” AI-Powered Analysis, Modeling, and Monitoring of Wind Energy Systems, pages 43-72, 2026, ISBN13: 9798337341590, IGI Global Scientific publishing.

DOI: https://doi.org/10.4018/979-8-3373-4159-0.ch002

D. Sharma, B. R. Gupta, and S. Sharma, “Hybrid Watermarking Framework Using Discrete Wavelet Transform and Visual Cryptographic Scheme”, Current Concepts in Engineering Research and Technology, Vol-1, pp. 76–87, 2026, , BP International ISBN 9789347485152. https://doi.org/10.9734/bpi/ccert/v1/6977