Vamsi Krishna Narla
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Analysis of entropy generation in biomimetic electroosmotic nanofluid pumping through a curved channel with joule dissipation
VK Narla, D Tripathi, OA Bég
Thermal Science and Engineering Progress 15, 100424, 2020
Unsteady peristaltic transport in curved channels
JV Ramanamurthy, KM Prasad, VK Narla
Physics of Fluids 25 (9), 2013
Electroosmosis modulated transient blood flow in curved microvessels: study of a mathematical model
VK Narla, D Tripathi
Microvascular research 123, 25-34, 2019
Peristaltic transport of Jeffrey nanofluid in curved channels
VK Narla, KM Prasad, JV Ramanamurthy
Procedia Engineering 127, 869-876, 2015
Electro-osmosis modulated viscoelastic embryo transport in uterine hydrodynamics: mathematical modeling
VK Narla, D Tripathi, O Anwar Bég
Journal of biomechanical engineering 141 (2), 021003, 2019
Electro-osmotic nanofluid flow in a curved microchannel
VK Narla, D Tripathi, OA Bég
Chinese Journal of Physics 67, 544-558, 2020
Modeling transient magnetohydrodynamic peristaltic pumping of electroconductive viscoelastic fluids through a deformable curved channel
VK Narla, D Tripathi, OA Bég, A Kadir
Journal of Engineering Mathematics 111, 127-143, 2018
Pumping flow model for couple stress fluids with a propagative membrane contraction
DS Bhandari, D Tripathi, VK Narla
International Journal of Mechanical Sciences 188, 105949, 2020
Peristaltic motion of viscoelastic fluid with fractional second grade model in curved channels
VK Narla, KM Prasad, JV Ramanamurthy
Chinese Journal of Engineering 2013, 1-7, 2013
Electrokinetic membrane pumping flow model in a microchannel
D Tripathi, VK Narla, Y Aboelkassem
Physics of Fluids 32 (8), 2020
Time-dependent analysis of electroosmotic fluid flow in a microchannel
VK Narla, D Tripathi, GPR Sekhar
Journal of Engineering Mathematics 114, 177-196, 2019
Entropy and exergy analysis on peristaltic pumping in a curved narrow channel
VK Narla, D Tripathi
Heat Transfer 49 (6), 3357-3373, 2020
Second-law analysis of the peristaltic flow of an incompressible viscous fluid in a curved channel
VK Narla, KM Prasad, JV Ramana Murthy
Journal of Engineering Physics and Thermophysics 89, 441-448, 2016
Magnetohydrodynamics-based pumping flow model with propagative rhythmic membrane contraction
DS Bhandari, D Tripathi, VK Narla
The European Physical Journal Plus 135 (11), 890, 2020
Time-dependent peristaltic analysis in a curved conduit: Application to chyme movement through intestine
VK Narla, KM Prasad, JVR Murthy
Mathematical Biosciences 293, 21-28, 2017
Thermal analysis of micropolar fluid flow driven by electroosmosis and peristalsis in microchannels
VK Narla, D Tripathi, DS Bhandari
International Journal of Ambient Energy 43 (1), 8193-8205, 2022
Electrokinetic insect-bioinspired membrane pumping in a high aspect ratio bio-microfluidic system
VK Narla, D Tripathi, DS Bhandari, OA Beg
Microfluidics and Nanofluidics, 2022
Entropy analysis of MHD fluid flow over a curved stretching sheet
VK Narla, C Biswas, GA Rao
AIP Conference Proceedings 2246 (1), 2020
Transient membrane kinematic model for viscoplastic fluids: periodic contraction in the microchannel
DS Bhandari, D Tripathi, VK Narla
The European Physical Journal Special Topics 232 (6), 817-826, 2023
Modelling the Impact of Melting and Nonlinear Radiation on Reactive Buongiorno Nanofluid Boundary Layer Flow from an Inclined Stretching Cylinder with Cross-diffusion and …
M Garvandha, VK Narla, D Tripathi
Energy Systems and Nanotechnology, 279, 2021
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