Thirumalachari Sundararajan
Thirumalachari Sundararajan
Indian Institute of Technology Palakkad
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A benchmark study on the thermal conductivity of nanofluids
J Buongiorno, DC Venerus, N Prabhat, T McKrell, J Townsend, ...
Journal of Applied Physics 106 (9), 2009
Thermal conductivities of naked and monolayer protected metal nanoparticle based nanofluids: Manifestation of anomalous enhancement and chemical effects
HE Patel, SK Das, T Sundararajan, A Sreekumaran Nair, B George, ...
Applied physics letters 83 (14), 2931-2933, 2003
Effect of particle size on the convective heat transfer in nanofluid in the developing region
KB Anoop, T Sundararajan, SK Das
International journal of heat and mass transfer 52 (9-10), 2189-2195, 2009
Model for heat conduction in nanofluids
DH Kumar, HE Patel, VRR Kumar, T Sundararajan, T Pradeep, SK Das
Physical Review Letters 93 (14), 144301, 2004
Natural convective heat transfer in a fluid saturated variable porosity medium
P Nithiarasu, KN Seetharamu, T Sundararajan
International Journal of Heat and Mass Transfer 40 (16), 3955-3967, 1997
A micro-convection model for thermal conductivity of nanofluids
HE Patel, KB Anoop, T Sundararajan, SK Das
International Heat Transfer Conference 13, 2006
An experimental investigation into the thermal conductivity enhancement in oxide and metallic nanofluids
HE Patel, T Sundararajan, SK Das
Journal of Nanoparticle Research 12, 1015-1031, 2010
Rheological and flow characteristics of nanofluids: Influence of electroviscous effects and particle agglomeration
KB Anoop, S Kabelac, T Sundararajan, SK Das
Journal of applied physics 106 (3), 2009
Entropy generation due to flow and heat transfer in nanofluids
PK Singh, KB Anoop, T Sundararajan, SK Das
International Journal of Heat and Mass Transfer 53 (21-22), 4757-4767, 2010
Numerical investigation of confined wakes behind a square cylinder in a channel
A Mukhopadhyay, G Biswas, T Sundararajan
International journal for numerical methods in fluids 14 (12), 1473-1484, 1992
Double-diffusive natural convection in an enclosure filled with fluid-saturated porous medium: a generalized non-Darcy approach
P Nithiarasu, KN Seetharamu, T Sundararajan
Numerical Heat Transfer, Part A Applications 30 (4), 413-426, 1996
Predicting the effective thermal conductivity of carbon nanotube based nanofluids
NNV Sastry, A Bhunia, T Sundararajan, SK Das
Nanotechnology 19 (5), 055704, 2008
Interaction effects between surface radiation and turbulent natural convection in square and rectangular enclosures
K Velusamy, T Sundararajan, KN Seetharamu
J. Heat Transfer 123 (6), 1062-1070, 2001
Power law fluid flow over spheroidal particles
A Tripathi, RP Chhabra, T Sundararajan
Industrial & engineering chemistry research 33 (2), 403-410, 1994
Optimization of solar linear Fresnel reflector system with secondary concentrator for uniform flux distribution over absorber tube
GSC Prasad, KS Reddy, T Sundararajan
Solar Energy 150, 1-12, 2017
Numerical simulation of natural convective heat transfer and fluid flow around a heated cylinder inside an enclosure
DG Roychowdhury, SK Das, T Sundararajan
Heat and mass transfer 38 (7), 565-576, 2002
A theoretical model of brick drying as a conjugate problem
K Murugesan, HN Suresh, KN Seetharamu, PAA Narayana, ...
International Journal of Heat and Mass Transfer 44 (21), 4075-4086, 2001
Computational fluid flow and heat transfer
K Muralidhar, T Sundararajan
(No Title), 2003
Experimental and numerical investigation into the hydrodynamics of nanofluids in microchannels
PK Singh, PV Harikrishna, T Sundararajan, SK Das
Experimental Thermal and Fluid Science 42, 174-186, 2012
Model for thermal conductivity of CNT-nanofluids
HE Patel, KB Anoop, T Sundararajan, SK Das
Bulletin of Materials Science 31, 387-390, 2008
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