Prediction of flow boiling heat transfer coefficient for carbon dioxide in minichannels and conventional channels

Journal title

Archives of Thermodynamics




No 2



heat transfer ; coefficient ; flow boiling ; carbon dioxide ; minichannels

Divisions of PAS

Nauki Techniczne




The Committee of Thermodynamics and Combustion of the Polish Academy of Sciences and The Institute of Fluid-Flow Machinery Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/aoter-2016-0014


Archives of Thermodynamics; 2016; No 2; 89-106


Choi (2007), Boiling heat transfer of a and CO, Int J Refrig, 22, 134. ; Yoon (2004), Characteristics of evaporative heat transfer and pressure drop of carbon dioxide and correlation development, Int J Refrig, 27, 111. ; Cheng (2008), New prediction methods of CO evaporation inside tubes : Part I - A two - phase flow pattern map and a flown pattern based phenomenological model for two - phase flow frictional pressure drops, Int J Heat Mass Tran, 19, 111, ; Kattan (1998), Flow boiling in horizontal tubes : Part - : Development of heat transfer model based on flow patterns Heat, Int J Tran, 3, 156. ; Wattelet (1994), Evaporative characteristics of R a , and a mixture at low mass fluxes, ASHRAE Trans, 22, 603. ; Cho (2007), Experimental studies on the evaporative heat transfer and pressure drop CO in smooth and micro - fin tubes of the diameters of and mm, Int J Refrig, 48, 9. ; Docoulombier (2011), Carbon dioxide flow boiling in a single microchannel - Part II : Heat transfer Thermal Fluid, Exp Sci, 35, 597. ; Chen (null), A correlation for boiling heat transfer to saturated fluid in convective flow ASME Paper, HT, 63, 1963. ; Jung (1989), A study of flow boiling heat transfer with refrigerant mixtures, Int J Heat Mass Tran, 32, 1751, ; Zhao (2007), Flow boiling heat transfer characteristic of CO at low temperatures, Int J Refrig, 30, 937, ; Thome (1996), Boiling of new refrigerants : a state - of - the - art review, Int J Refrig, 19, 435, ; May (2016), Carbon Dioxide : Air Liquide Gas Encyclopaedia , http : / / encyclopedia com / encyclopedia access, airliquide asp LanguageID GasID, 1. ; Mikielewicz (1973), Semi - empirical method of determining the heat transfer coefficient for subcooled saturated boiling in a channel Heat, Int J Tran, 17, 1129, ; Ribatski (2012), A critical overview on the recent literature concerning flow boiling and two - phase flows inside microscale channels ECI th on Boiling and Condensation Heat Transfer , Lausanne, Int Conf, 8. ; Pamitran (2011), - Nasruddin : Evaporation heat transfer coefficient in single circular small tubes for flow natural refrigerants of and CO, Int J Multiphas Flow, 21, 794, ; Dang (2010), Flow boiling heat transfer of carbon dioxide inside a small - sized microfin tube, Int J Refrig, 33, 655, ; Liu (1991), A general correlation for saturated and subcooled flow boiling in tubes and annuli based on a nucleate pool boiling equation, Int J Heat Mass Tran, 34, 2759, ; Bergels (2003), Boiling and evaporation in small diameter channels Transfer, Heat Eng, 24, 18, ; Oh (2011), Experimental investigation on two - phase flow boiling heat transfer of five refrigerants in horizontal small tubes of and mm inner diameters, Int J Heat Mass Tran, 42, 0. ; Saitoh (2007), Correlation for boiling heat transfer of R a in horizontal tubes including effect of tube diameter, Int J Heat Mass Tran, 134, 5215, ; Fang (2013), Review of correlations of flow boiling heat transfer coefficients for carbon dioxide, Int J Refrig, 20, 2017, ; Shah (1982), Chart correlation for saturated boiling heat transfer : Equations and further study, ASHRAE Trans, 88, 185. ; Oh (2008), Flow boiling heat transfer characteristics of carbon dioxide in a horizontal tube, Appl Therm Eng, 43, 1022, ; Kew (1997), Correlations for the prediction of boiling heat transfer in small diameter channels, Appl Therm Eng, 17, 705, ; Mikielewicz (2007), Improved semi - empirical method for determination of heat transfer coefficient in flow boiling in conventional and small diameter tubes, Int J Heat Mass Tran, 50, 3949, ; Yoon (2004), Characteristics of evaporative heat transfer and pressure drop of carbon dioxide correlation development, Int J Refrig, 41, 111, ; Mikielewicz (2016), Analytical model with non - adiabatic effects for pressure drop and heat transfer during boiling and condensation flows in conventional channels and minichannels Transfer, Heat Eng, 37, 1158, ; Cooper (null), Saturation nucleate pool boiling ; a simple correlation, Int Chem Eng Symp, 1, 1984. ; Kim (2008), Experimental study on the evaporative heat transfer and pressure drop of CO flowing upward in vertical smooth and microfin tubes with diameter of mm, Int J Refrig, 46, 771, ; Sardeshpande (2013), Two - phase flow boiling in small channels : A brief review, Sadhana, 38, 1083, ; Tibirica (2013), Flow boiling in micro - scale channels - Synthesized literature review, Int J Refrig, 36, 301, ; Wu (2011), Investigation of heat transfer and pressure drop CO two - phase flow in a horizontal minichannels, Int J Heat Mass Tran, 47, 2154, ; Mastrullo (2010), Carbon dioxide heat transfer coefficients and pressure drops during flow boiling : Assessment of predictive methods, Int J Refrig, 14, 1068, ; Yun (2003), Boiling heat transfer and dry out phenomenon of CO in a horizontal smooth tube, Int J Heat Mass Tran, 46, 2353, ; Mikielewicz (2011), A common method for calculation of flow boiling and flow condensation heat transfer coefficients in minichannels with account of nonadiabatic effects Transfer, Heat Eng, 32, 1173, ; Mastrullo (2009), Carbon dioxide local heat transfer coefficients during flow boiling in a horizontal circular smooth tube, Int J Heat Mass Tran, 52, 4184, ; Tran (1996), Small circular - and rectangular channel boiling with two refrigerants, Int J Multiphas Flow, 22, 485, ; Steiner (1992), Flow boiling heat transfer in vertical tubes correlated by an asymptotic model Transfer, Heat Eng, 13, 43, ; Wang (2003), Boiling heat transfer and air coil evaporator of carbon dioxide In st IIR Int Congress of Refrigeration, Proc, 21. ; Kandlikar (2001), Fundamental issues related to flow boiling in minichannels and microchannels In Experimental Heat Transfer , Fluid Mechanics and Thermodynamics Thessaloniki, Proc, 129. ; Kandlikar (2003), Predicting heat transfer during flow boiling in minichannels and microchannels, ASHRAE Trans, 109, 667. ; Muller (1986), A simple friction pressure drop correlation for twophase flow in pipes, Chem Eng Process, 20, 297, ; Yun (2005), Flow boiling heat transfer of carbon dioxide in horizontal mini tubes Heat Fluid Flow, Int J, 26, 801. ; Gungor (1986), Simplified general correlation for saturated flow boiling in tubes and annuli, Int J Heat Mass Tran, 29, 351, ; Hihara (2000), Boiling heat of carbon dioxide in horizontal tubes In IIR Gustav Lorentzen Conf on Natural Working Fluids, Proc, 279. ; Alagesan (2012), Flow boiling heat transfer in mini and micro channels - A state of the art review, Int J Chem Tech Res, 4, 1247. ; Kandlikar (1990), A general correlation for saturated two - phase flow boiling horizontal and vertical tubes Heat, Trans Tran, 112, 219.

Editorial Board

International Advisory Board

J. Bataille, Ecole Central de Lyon, Ecully, France
A. Bejan, Duke University,  Durham, USA
W. Blasiak, Royal Institute of Technology,  Stockholm, Sweden
G. P. Celata, ENEA,  Rome, Italy
M. W. Collins, South Bank University,  London, UK
J. M. Delhaye, CEA, Grenoble, France
M. Giot, Université Catholique de Louvain, Belgium
D. Jackson, University of Manchester, UK
S. Michaelides, University of North Texas, Denton, USA
M. Moran, Ohio State University,  Columbus, USA
W. Muschik, Technische Universität, Berlin, Germany
I. Müller, Technische Universität, Berlin, Germany
V. E. Nakoryakov, Institute of Thermophysics, Novosibirsk, Russia
M. Podowski, Rensselaer Polytechnic Institute, Troy, USA
M.R. von Spakovsky, Virginia Polytechnic Institute and State University, Blacksburg, USA

Open Access Policy

For articles published in Archives of Thermodynamics, the authors transfer copyright to publisher.

The Archives of Thermodynamics is published in formula: Open Access Gratis.