Kandlikar SG
Kandlikar SG
Mechanical Engineering, Rochester Institute of Technology
Verified email at rit.edu
Cited by
Cited by
A general correlation for saturated two-phase flow boiling heat transfer inside horizontal and vertical tubes
SG Kandlikar
Heat transfer and fluid flow in minichannels and microchannels
S Kandlikar, S Garimella, D Li, S Colin, MR King
elsevier, 2005
Fundamental issues related to flow boiling in minichannels and microchannels
SG Kandlikar
Experimental Thermal and Fluid Science 26 (2-4), 389-407, 2002
Evolution of microchannel flow passages--thermohydraulic performance and fabrication technology
SG Kandlikar, WJ Grande
Heat transfer engineering 24 (1), 3-17, 2003
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
Heat transfer mechanisms during flow boiling in microchannels
SG Kandlikar
J. Heat Transfer 126 (1), 8-16, 2004
Single-phase liquid friction factors in microchannels
ME Steinke, SG Kandlikar
International journal of thermal sciences 45 (11), 1073-1083, 2006
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
Handbook of phase change: boiling and condensation
SG Kandlikar
Routledge, 2018
On the nature of critical heat flux in microchannels
AE Bergles, SG Kandlikar
J. Heat Transfer 127 (1), 101-107, 2005
An experimental investigation of flow boiling characteristics of water in parallel microchannels
ME Steinke, SG Kandlikar
J. Heat Transfer 126 (4), 518-526, 2004
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
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
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
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
Stabilization of flow boiling in microchannels using pressure drop elements and fabricated nucleation sites
SG Kandlikar, WK Kuan, DA Willistein, J Borrelli
High flux heat removal with microchannels—a roadmap of challenges and opportunities
SG Kandlikar
Heat Transfer Engineering 26 (8), 5-14, 2005
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
Water management studies in PEM fuel cells, Part I: Fuel cell design and in situ water distributions
JP Owejan, JJ Gagliardo, JM Sergi, SG Kandlikar, TA Trabold
International Journal of Hydrogen Energy 34 (8), 3436-3444, 2009
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
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