Arvind Pattamatta
Arvind Pattamatta
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Scaling analysis for the investigation of slip mechanisms in nanofluids
S Savithiri, A Pattamatta, SK Das
Nanoscale research letters 6 (1), 1-15, 2011
The role of percolation and sheet dynamics during heat conduction in poly-dispersed graphene nanofluids
P Dhar, S Sen Gupta, S Chakraborty, A Pattamatta, SK Das
Applied Physics Letters 102 (16), 163114, 2013
Modeling heat transfer in Bi2Te3–Sb2Te3 nanostructures
A Pattamatta, CK Madnia
International Journal of Heat and Mass Transfer 52 (3-4), 860-869, 2009
Effect of flow maldistribution on the thermal performance of parallel microchannel cooling systems
VM Siva, A Pattamatta, SK Das
International Journal of Heat and Mass Transfer 73, 424-428, 2014
Percolation network dynamicity and sheet dynamics governed viscous behavior of polydispersed graphene nanosheet suspensions
P Dhar, MHD Ansari, SS Gupta, VM Siva, T Pradeep, A Pattamatta, ...
Journal of nanoparticle research 15 (12), 1-12, 2013
Superior dielectric breakdown strength of graphene and carbon nanotube infused nano-oils
P Dhar, A Katiyar, LS Maganti, A Pattamatta, SK Das
IEEE Transactions on Dielectrics and Electrical Insulation 23 (2), 943-956, 2016
Three-objective shape optimization and parametric study of a micro-channel heat sink with discrete non-uniform heat flux boundary conditions
Y Hadad, B Ramakrishnan, R Pejman, S Rangarajan, PR Chiarot, ...
Applied Thermal Engineering 150, 720-737, 2019
A comparative study of flow regimes and thermal performance between flat plate pulsating heat pipe and capillary tube pulsating heat pipe
A Takawale, S Abraham, A Sielaff, PS Mahapatra, A Pattamatta, ...
Applied Thermal Engineering 149, 613-624, 2019
Investigation on flow maldistribution in parallel microchannel systems for integrated microelectronic device cooling
VM Siva, A Pattamatta, SK Das
IEEE Transactions on Components, Packaging and Manufacturing Technology 4 (3 …, 2013
A parametric study of oscillatory two-phase flows in a single turn Pulsating Heat Pipe using a non-isothermal vapor model
M Dilawar, A Pattamatta
Applied thermal engineering 51 (1-2), 1328-1338, 2013
Evaporation kinetics of pure water drops: Thermal patterns, Marangoni flow, and interfacial temperature difference
T Josyula, Z Wang, A Askounis, D Orejon, S Harish, Y Takata, ...
Physical Review E 98 (5), 052804, 2018
Experimental assessment of the thermo-hydraulic performance of automobile radiator with metallic and nonmetallic nanofluids
AR Akash, S Abraham, A Pattamatta, SK Das
Heat Transfer Engineering 41 (3), 235-251, 2020
Numerical investigations on convective heat transfer enhancement in jet impingement due to the presence of porous media using Cascaded Lattice Boltzmann method
CS Kumar, S Mohankumar, M Geier, A Pattamatta
International Journal of Thermal Sciences 122, 201-217, 2017
Rayleigh–Benard convection in water-based alumina nanofluid: a numerical study
S Savithiri, A Pattamatta, SK Das
Numerical Heat Transfer, Part A: Applications 71 (2), 202-214, 2017
An experimental investigation into the spread and heat transfer dynamics of a train of two concentric impinging droplets over a heated surface
G Guggilla, R Narayanaswamy, A Pattamatta
Experimental Thermal and Fluid Science 110, 109916, 2020
Modeling electron-phonon nonequilibrium in gold films using Boltzmann transport model
A Pattamatta, CK Madnia
Journal of Heat Transfer 131 (8), 2009
Enhancement of natural convection heat transfer in a square cavity using MWCNT/Water nanofluid: an experimental study
PS Joshi, A Pattamatta
Heat and Mass Transfer 54 (8), 2295-2303, 2018
Natural convection heat transfer in a cavity filled with electrically conducting nano-particle suspension in the presence of magnetic field
DD Dixit, A Pattamatta
Physics of Fluids 31 (2), 023302, 2019
Experimental investigation of the inlet condition on jet impingement heat transfer using liquid crystal thermography
U Ansu, SC Godi, A Pattamatta, C Balaji
Experimental Thermal and Fluid Science 80, 363-375, 2017
Large electrorheological phenomena in graphene nano-gels
P Dhar, A Katiyar, A Pattamatta, SK Das
Nanotechnology 28 (3), 035702, 2016
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