Experimental Study and Model on Critical Heat Flux of Refrigerant-123 and Water in MicrochannelsKEAT KUAN, Wai; KANDLIKAR, Satish G.Journal of heat transfer. 2008, Vol 130, Num 3, issn 0022-1481, 034503.1-034503.5Article

Immersion cooling nucleate boiling of high power computer chipsEL-GENK, Mohamed S.Energy conversion and management. 2012, Vol 53, Num 1, pp 205-218, issn 0196-8904, 14 p.Article

A review of boiling and convective heat transfer with nanofluidsSOHEL MURSHED, S. M; NIETO DE CASTRO, C. A; LOURENCO, M. J. V et al.Renewable & sustainable energy review. 2011, Vol 15, Num 5, pp 2342-2354, issn 1364-0321, 13 p.Article

Nanofluid boiling : The effect of surface wettabilityCOURSEY, Johnathan S; KIM, Jungho.International journal of heat and fluid flow. 2008, Vol 29, Num 6, pp 1577-1585, issn 0142-727X, 9 p.Article

On the hot-spot-controlled critical heat flux mechanism in saturated pool boiling. II: The influence of contact angle and nucleation site densityUNAL, C; SADASIVAN, P; NELSON, R. A et al.Journal of heat transfer. 1993, Vol 115, Num 3, pp 813-816, issn 0022-1481Article

Effects of an externally imposed electric field on subcooled boiling critical heat fluxMASSON, V; CARRICA, P. M.International communications in heat and mass transfer. 1995, Vol 22, Num 4, pp 483-492, issn 0735-1933Article

A Scale Analysis Based Theoretical Force Balance Model for Critical Heat Flux (CHF) During Saturated Flow Boiling in Microchannels and MinichannelsKANDLIKAR, Satish G.Journal of heat transfer. 2010, Vol 132, Num 8, issn 0022-1481, 081501.1-081501.13Article

Validation of COBRA-TF critical heat flux predictions for a small-hydraulic-diameter geometry under natural boiling conditionsERGUN, Sule; WILLIAMS, Jason G; HOCHREITER, Lawrence E et al.Nuclear technology. 2006, Vol 156, Num 1, pp 69-74, issn 0029-5450, 6 p.Article

Prediction of critical heat flux in annular flow using a film flow modelOKAWA, Tomio; KOTANI, Akio; KATAOKA, Isao et al.Journal of Nuclear Science and Technology. 2003, Vol 40, Num 6, pp 388-396, issn 0022-3131, 9 p.Article

Boiling Heat Transfer and Critical Heat Flux Enhancement of Upward- and Downward-Facing Heater in NanofluidsMUHAMAD ZUHAIRI SULAIMAN; TAKAMURA, Masahiro; NAKAHASHI, Kazuki et al.Journal of engineering for gas turbines and power. 2013, Vol 135, Num 7, issn 0742-4795, 072901.1-072901.6Article

Prediction of PF-5060 Spray Cooling Heat Transfer and Critical Heat FluxABBASI, Bahman; KIM, Jungho.Journal of heat transfer. 2011, Vol 133, Num 10, issn 0022-1481, 101504.1-101504.12Article

Effect of Cross-Sectional Perturbation on Critical Heat Flux Criteria in Microchannels : HEAT TRANSFER FLUIDS ENGINEERING & NANOCHANNELS AND MINICHANNELSMINER, Mark J; PHELAN, Patrick E.Journal of heat transfer. 2013, Vol 135, Num 10, issn 0022-1481, 101009.1-101009.7Conference Paper

Correlation for Flow Boiling Critical Heat Flux in Thin Rectangular ChannelsTANAKA, Futoshi; HIBIKI, Takashi; MISHIMA, Kaichiro et al.Journal of heat transfer. 2009, Vol 131, Num 12, issn 0022-1481, 121003.1-121003.7Article

HEAT TRANSFER FOR SUBCOOLED FLOW BOILING IN HYPERVAPOTRON CONFIGURATIONPEIPEI CHEN; WEN WU; JONES, Barclay G et al.Nuclear technology. 2008, Vol 164, Num 1, pp 89-96, issn 0029-5450, 8 p.Conference Paper

Lookup tables for predicting chf and film-boiling heat transfer : Past, present, and futureGROENEVELD, D. C; LEUNG, L. K. H; GUO, Y et al.Nuclear technology. 2005, Vol 152, Num 1, pp 87-104, issn 0029-5450, 18 p.Conference Paper

Experimental study of the effect of spark power on piloted ignition of wood at different altitudesWEI WU; LIZHONG YANG; JUNHUI GONG et al.Journal of fire sciences. 2011, Vol 29, Num 5, pp 465-475, issn 0734-9041, 11 p.Article

Experimental study on transient boiling heat transfer in an annulus with a narrow gapTANAKA, Futoshi; JUARSA, Mulya; MISHIMA, Kaichiro et al.Journal of Nuclear Science and Technology. 2004, Vol 41, Num 3, pp 279-284, issn 0022-3131, 6 p.Conference Paper

Experimental and numerical investigations on debris bed coolability in a multidimensional and homogeneous configuration with volumetric heat sourceATKHEN, Kresna; BERTHOUD, Georges.Nuclear technology. 2003, Vol 142, Num 3, pp 270-282, issn 0029-5450, 13 p.Article

Critical heat flux on a flat plate heater located at the middle of a duct in forced flow of pressurized He IIOKAMURA, T; SAEKI, M; HATA, K et al.Cryogenics (Guildford). 2004, Vol 44, Num 9, pp 603-609, issn 0011-2275, 7 p.Article

Friction dominated, subsonic compressible flow in channels of slowly varying cross sectionDJORDJEVIC, V. D; CRNOJEVIC, C.International journal of heat and fluid flow. 1999, Vol 20, Num 2, pp 166-171, issn 0142-727XArticle

Immersion cooling of a simulated electronic chip protruding into a flow channelLELAND, J. E; CHOW, L. C.Journal of thermophysics and heat transfer. 1998, Vol 12, Num 3, pp 398-405, issn 0887-8722Article

How accurately can we predict nucleate boiling?KOLEV, N. I.Experimental thermal and fluid science. 1995, Vol 10, Num 3, pp 370-378, issn 0894-1777Article

Studies on pool boiling heat transfer (modification of correlation of macrolayer thickness and measurements of macrolayer thickness at low heat fluxes)SAKASHITA, H; YASUDA, H; KUMADA, T et al.Heat transfer. Japanese research. 1996, Vol 25, Num 8, pp 522-536, issn 0096-0802Article

Behaviour of vapor masses on a vertical flat surface of comparatively large height near critical heat flux conditions in saturated pool boilingKATTO, Y; OTOKUNI, S.International journal of heat and mass transfer. 1994, Vol 37, pp 255-263, issn 0017-9310, SUP1Article

Forced convection boiling from a nonflush simulated electronic chipLELAND, J. E; CHOW, L. C.Journal of thermophysics and heat transfer. 1993, Vol 7, Num 4, pp 588-594, issn 0887-8722Conference Paper