APPLY NOW
Mukesh Patel School of Technology Management and Engineering
search
SM handles:

Educational Qualification (highest): Ph.D

Area of Research: FEM, Nanofluid, Micropolar fluid, Numerical methods, Heat and Mass transfer

Department: Basic Sciences and Humanities

PhD Scholars: 01 Registered

  • Ms. Sheetal Gonsalves, Research Area: CFD, Nanofluid, Heat and Mass Transfer.

Basic Information:

  • Email Id: swapna.gabbur@nmims.edu
  • Landline extension: 022- 49330543
  • Desk (location): Faculty Area 101, Cubicle-3
Awards:

Best Paper Award “FEM solution of radiative convective non-Darcy MHD micropolar flow with convective condition “ at 8th IEEE International Conference on Engineering Technologies and Applied Sciences, October 25-27, 2023, University of Technology Bahrain.

Publications:
Journals
  1. Gonsalves, Sheetal, and Gabbur Swapna. “FEM study of blood gold electrically conducting micropolar nanofluid flow within a permeable channel.” Numerical Heat Transfer, Part B: Fundamentals(2024): 1-23.
  2. Gonsalves, Sheetal, and G. Swapna. “Finite element study of nanofluid through porous nonlinear stretching surface under convective boundary conditions.” Materials Today: Proceedings(2023).
  3. Gonsalves, Sheetal, and Swapna Gabbur. “Convective Heat Transfer of Radiating Magneto-Micropolar Nanofluid Flow.” International Journal of Heat & Technology41, no. 4 (2023).
  4. Swapna, G., Lokendra Kumar, Puneet Rana, Anchala Kumari, and Bani Singh. “Finite element study of radiative double-diffusive mixed convection magneto-micropolar flow in a porous medium with chemical reaction and convective condition.” Alexandria engineering journal57, no. 1 (2018): 107-120.
  5. Swapna, G., Lokendra Kumar, Puneet Rana, and Bani Singh. “Finite element modeling of a double-diffusive mixed convection flow of a chemically-reacting magneto-micropolar fluid with convective boundary condition.” Journal of the Taiwan Institute of Chemical Engineers47 (2015): 18-27.
  6. Swapna, G., Lokendra Kumar, O. Anwar Bég, and Bani Singh. “Finite element analysis of radiative mixed convection magneto‐micropolar flow in a Darcian porous medium with variable viscosity and convective surface condition.” Heat Transfer—Asian Research44, no. 6 (2015): 515-532.
  7. Swapna, G., L. Kumar, and N. Bhardwaj. “Study of effects of radiation and magnetic field on the mixed convection micropolar fluid flow towards a stagnation point on a heated vertical permeable plate using finite element method.” International Journal of Mechanic Systems Engineering5, no. 1 (2015): 1-13.
Conferences:
  1. Gabbur, Swapna, and Diksha Gupta. “FEM Solution of Radiative Convective Non-Darcy MHD Micropolar Flow with Convective Condition.” In 2023 IEEE 8th International Conference on Engineering Technologies and Applied Sciences (ICETAS), pp. 1-6. IEEE, 2023.
  2. Gonsalvesa, Sheetal, and G. Swapnaa. “Heat Transfer Analysis using Finite Element Method under Convective Boundary Condition.” E3S Web of Conferences. Vol. 430. EDP Sciences, 2023.
  3. Kumar, Lokendra, G. Swapna, and Bani Singh. “Finite difference solution of the mixed convection flow of MHD micropolar fluid past a moving surface with radiation effect.” In Proceedings of the 4th WSEAS international conference on Finite differences-finite elements-finite volumes-boundary elements, pp. 41-46. 2011.