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Dinesh Singh Bhandari
Dinesh Singh Bhandari
Research Associate at the James Watt School of Engineering, University of Glasgow
Verified email at nituk.ac.in - Homepage
Title
Cited by
Cited by
Year
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
322020
Insight into Newtonian fluid flow and heat transfer in vertical microchannel subject to rhythmic membrane contraction due to pressure gradient and buoyancy forces
DS Bhandari, D Tripathi, J Prakash
International Journal of Heat and Mass Transfer 184, 122249, 2022
252022
Electro-osmosis modulated periodic membrane pumping flow and particle motion with magnetic field effects
DS Bhandari, D Tripathi, O Anwar Bég
Physics of Fluids 34 (9), 2022
242022
Study of entropy generation and heat flow through a microtube induced by the membrane-based thermofluidics systems
DS Bhandari, D Tripathi
Thermal Science and Engineering Progress 34, 101395, 2022
212022
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
202022
Thermal effects on SARS-CoV-2 transmission in peristaltic blood flow: Mathematical modeling
D Tripathi, DS Bhandari, O Anwar Bég
Physics of Fluids 34 (6), 2022
182022
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
142020
Electrokinetic insect-bioinspired membrane pumping in a high aspect ratio bio-microfluidic system
VK Narla, D Tripathi, DS Bhandari, OA Bég
Microfluidics and Nanofluidics 26 (11), 85, 2022
132022
Propagation of H1N1 virus through saliva movement in oesophagus: a mathematical model
D Ram, DS Bhandari, D Tripathi, K Sharma
The European Physical Journal Plus 137 (7), 866, 2022
112022
Alteration in electroosmotic flow of couple stress fluids through membrane based microchannel
A Bhardwaj, A Kumar, DS Bhandari, D Tripathi
Sensors and Actuators A: Physical 366, 114956, 2024
102024
Progression of blood-borne viruses through bloodstream: A comparative mathematical study
D Ram, DS Bhandari, K Sharma, D Tripathi
Computer Methods and Programs in Biomedicine 232, 107425, 2023
92023
Alteration in membrane-based pumping flow with rheological behaviour: A mathematical model
DS Bhandari, D Tripathi
Computer Methods and Programs in Biomedicine 229, 107325, 2023
82023
Motion of bacteria and CaOx particles via urine flow modulated by the electro-osmosis
D Ram, DS Bhandari, D Tripathi, K Sharma
Physics of Fluids 35 (12), 2023
72023
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
72023
A critical review on micro-scale pumping based on insect-inspired membrane kinematics
D Tripathi, DS Bhandari, OA Bég
Sensors and Actuators A: Physical, 114518, 2023
52023
Parametric analysis of multi membrane based pumping flow model with induced magnetic field
DS Bhandari, A Bhardwaj, D Tripathi
Chinese Journal of Physics 89, 236-249, 2024
42024
Modeling virus transport and dynamics in viscous flow medium
D Tripathi, D Bhandari, R Kumar, Y Aboelkassem
Journal of Biological Dynamics 17 (1), 2182373, 2023
22023
Bioinspired Pumping Flow Driven by Rhythmic Membrane Propulsion in a Porous Medium
DS Bhandari, D Tripathi, R Kumar
Critical Reviews™ in Biomedical Engineering 50 (5), 2022
12022
Viscoelastic fluid flow driven by non-propagative membrane contraction
DS Bhandari, D Tripathi
Journal of Physics: Conference Series 1849 (1), 012018, 2021
12021
Mathematical modelling for virus transport in a viscous fluid medium
D Tripathi, R Kumar, D Bhandari, Y Aboelkassem, DT Team
APS Division of Fluid Dynamics Meeting Abstracts, H01. 009, 2021
12021
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