Kandlikar SG
Kandlikar SG
Mechanical Engineering, Rochester Institute of Technology
Verified email at rit.edu
Title
Cited by
Cited by
Year
A general correlation for saturated two-phase flow boiling heat transfer inside horizontal and vertical tubes
SG Kandlikar
13871990
Heat transfer and fluid flow in minichannels and microchannels
S Kandlikar, S Garimella, D Li, S Colin, MR King
elsevier, 2005
13602005
Fundamental issues related to flow boiling in minichannels and microchannels
SG Kandlikar
Experimental Thermal and Fluid Science 26 (2-4), 389-407, 2002
11302002
Evolution of microchannel flow passages--thermohydraulic performance and fabrication technology
SG Kandlikar, WJ Grande
Heat transfer engineering 24 (1), 3-17, 2003
9582003
A theoretical model to predict pool boiling CHF incorporating effects of contact angle and orientation
SG Kandlikar
J. Heat transfer 123 (6), 1071-1079, 2001
8332001
Heat transfer mechanisms during flow boiling in microchannels
SG Kandlikar
J. Heat Transfer 126 (1), 8-16, 2004
4952004
Single-phase liquid friction factors in microchannels
ME Steinke, SG Kandlikar
International journal of thermal sciences 45 (11), 1073-1083, 2006
4842006
Handbook of phase change: boiling and condensation
SG Kandlikar
Routledge, 2019
3792019
Characterization of surface roughness effects on pressure drop in single-phase flow in minichannels
SG Kandlikar, D Schmitt, AL Carrano, JB Taylor
Physics of Fluids 17 (10), 100606, 2005
3662005
An extension of the flow boiling correlation to transition, laminar, and deep laminar flows in minichannels and microchannels
SG Kandlikar, P Balasubramanian
Heat Transfer Engineering 25 (3), 86-93, 2004
3662004
History, advances, and challenges in liquid flow and flow boiling heat transfer in microchannels: a critical review
SG Kandlikar
Journal of heat transfer 134 (3), 2012
3622012
An experimental investigation of flow boiling characteristics of water in parallel microchannels
ME Steinke, SG Kandlikar
J. Heat Transfer 126 (4), 518-526, 2004
3432004
On the nature of critical heat flux in microchannels
AE Bergles, SG Kandlikar
J. Heat Transfer 127 (1), 101-107, 2005
3302005
Thermal management issues in a PEMFC stack–A brief review of current status
SG Kandlikar, Z Lu
Applied Thermal Engineering 29 (7), 1276-1280, 2009
3172009
Stabilization of flow boiling in microchannels using pressure drop elements and fabricated nucleation sites
SG Kandlikar, WK Kuan, DA Willistein, J Borrelli
3102006
Effects of flow field and diffusion layer properties on water accumulation in a PEM fuel cell
JP Owejan, TA Trabold, DL Jacobson, M Arif, SG Kandlikar
International Conference on Nanochannels, Microchannels, and Minichannels …, 2007
3082007
A critical review of cooling techniques in proton exchange membrane fuel cell stacks
G Zhang, SG Kandlikar
international journal of hydrogen energy 37 (3), 2412-2429, 2012
3042012
High flux heat removal with microchannels—a roadmap of challenges and opportunities
SG Kandlikar
Heat Transfer Engineering 26 (8), 5-14, 2005
2862005
Heat transfer in microchannels—2012 status and research needs
SG Kandlikar, S Colin, Y Peles, S Garimella, RF Pease, JJ Brandner, ...
Journal of Heat Transfer 135 (9), 091001, 2013
2642013
Evaluation of single phase flow in microchannels for high heat flux chip cooling—thermohydraulic performance enhancement and fabrication technology
SG Kandlikar, WJ Grande
Heat transfer engineering 25 (8), 5-16, 2004
2622004
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