Follow
Sumit Kumar Mehta
Sumit Kumar Mehta
Ph.D. (NIT Silchar) Project staff R&D, IIT Guwahati
Verified email at rnd.iitg.ac.in - Homepage
Title
Cited by
Cited by
Year
Numerical study of mixing in wavy micromixers: comparison between raccoon and serpentine mixer
B Mondal, SK Mehta, PK Patowari, S Pati
Chemical Engineering and Processing-Process Intensification 136, 44-61, 2018
1202018
Numerical investigation of thermo-hydraulic transport characteristics in wavy channels: comparison between raccoon and serpentine channels
S Pati, SK Mehta, A Borah
International Communications in Heat and Mass Transfer 88, 171-176, 2017
822017
Analysis of thermo-hydraulic performance and entropy generation characteristics for laminar flow through triangular corrugated channel
SK Mehta, S Pati
Journal of Thermal Analysis and Calorimetry 136 (1), 49-62, 2019
632019
Numerical study of the vortex induced electroosmotic mixing of non‐Newtonian biofluids in a non‐uniformly charged wavy microchannel: Effect of finite ion size
SK Mehta, S Pati, PK Mondal
Electrophoresis, 2021
612021
Numerical analysis of electroosmotic mixing in a heterogeneous charged micromixer with obstacles
B Monal, SK Mehta, S Pati, PK Patowari
Chemical Engineering and Processing - Process Intensification, 108585, 2021
502021
Numerical study of thermo-hydraulic characteristics for forced convective flow through wavy channel at different Prandtl numbers
SK Mehta, S Pati
Journal of Thermal Analysis and Calorimetry 141 (6), 2429-2451, 2020
382020
Electroosmotic flow of viscoelastic fluid through a microchannel with slip-dependent zeta potential
KN Vasista, SK Mehta, S Pati, S Sarkar
Physics of Fluids 33, 123110, 2021
352021
Thermo-hydraulic and entropy generation analysis for magnetohydrodynamic pressure driven flow of nanofluid through an asymmetric wavy channel
SK Mehta, S Pati
International Journal of Numerical Methods for Heat & Fluid Flow, 2020
322020
Analytical solution to heat transfer for mixed electroosmotic and pressure-driven flow through a microchannel with slip-dependent zeta potential
D Banerjee, SK Mehta, S Pati, P Biswas
International Journal of Heat and Mass Transfer 181, 121989, 2021
292021
Analysis of thermal transport and entropy generation characteristics for electroosmotic flow through a hydrophobic microchannel considering viscoelectric effect
S Pabi, SK Mehta, S Pati
International Communications in Heat and Mass Transfer, 105519, 2021
272021
Effect of amplitude of walls on thermal and hydrodynamic characteristics of laminar flow through an asymmetric wavy channel
SK Mehta, S Pati, L Baranyi
Case Studies in Thermal Engineering 31 (March 2022), 101796, 2022
242022
Enhanced Electroosmotic Mixing in a Wavy Micromixer Using Surface Charge Heterogeneity
SK Mehta, S Pati
Industrial & Engineering Chemistry Research, 2022
212022
Electroosmotic mixing in a microchannel with heterogeneous slip dependent zeta potential
KN Vasista, SK Mehta, S Pati
Chemical Engineering and Processing - Process Intensification, 108940, 2022
202022
Analysis of thermo-hydraulic and entropy generation characteristics for flow through ribbed-wavy channel
SK Mehta, S Pati, S Ahmed, P Bhattacharyya, JJ Bordoloi
International Journal of Numerical Methods for Heat & Fluid Flow, 2021
202021
Enhanced electroosmotic mixing of non-Newtonian fluids in a heterogeneous surface charged micromixer with obstacles
SK Mehta, B Mondal, S Pati, PK Patowari
Colloids and Surfaces A: Physicochemical and Engineering Aspects 648, 129215, 2022
192022
Effect on Non-uniform Heating on Heat Transfer Characteristics in Wavy Channel
SK Mehta, S Pati
Proceedings of the 5 th International Conference on Computational Methods …, 2018
152018
Physical growth characteristics in adolescent girls of upper socio-economic group in Varanasi.
P Pereira, S Mehta, BB Khare, GP Katiyar, DK Agarwal, AM Tripathi, ...
151983
Vortex-assisted electroosmotic mixing of Carreau fluid in a microchannel
SK Mehta, PK Mondal
Electrophoresis, 2023
122023
Numerical assessment of hydrodynamic and mixing characteristics for mixed electroosmotic and pressure-driven flow through a wavy microchannel with patchwise surface heterogeneity
K Naga Vasista, SK Mehta, S Pati
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of …, 2021
122021
Prediction of Electrodiffusioosmotic Transport of Shear-thinning Fluids in a Nanochannel using Artificial Neural Network
M Ismayeel, SK Mehta, PK Mondal
Physics of Fluids, 2023
102023
The system can't perform the operation now. Try again later.
Articles 1–20