Algebraic turbulence modeling in adiabatic and evaporating annular two-phase flow
暂无分享,去创建一个
[1] L. Portela,et al. On the role of droplets in cocurrent annular and churn-annular pipe flow , 2007 .
[2] G. F. Hewitt,et al. The motion and frequency of large disturbance waves in annular two-phase flow of air-water mixtures , 1963 .
[3] John R. Thome,et al. Prediction of the entrained liquid fraction in vertical annular gas–liquid two-phase flow , 2010 .
[4] P. F. Vassallo,et al. Near wall structure in vertical air–water annular flows , 1999 .
[5] L. Qiu,et al. Liquid film dryout model for predicting critical heat flux in annular two-phase flow , 2009 .
[6] J. Thome,et al. Flow Boiling in Horizontal Tubes: Part 3—Development of a New Heat Transfer Model Based on Flow Pattern , 1998 .
[7] M. Ricotti,et al. Effects of dissolved air on subcooled and saturated flow boiling of water in a small diameter tube at low pressure , 2007 .
[8] R. M. Nedderman,et al. Pressure gradient and liquid film thickness in co-current upwards flow of gas/liquid mixtures: Application to film-cooler design , 1965 .
[9] Geoffrey F. Hewitt,et al. The breakdown of the liquid film in annular two-phase flow , 1965 .
[10] Ulrich Renz,et al. Heat transfer and film thickness during condensation of steam flowing at high velocity in a vertical pipe , 1992 .
[11] Min-Soo Kim,et al. Experimental study on forced convective boiling heat transfer of pure refrigerants and refrigerant mixtures in a horizontal tube , 1997 .
[12] K. Gabriel,et al. A new method of entrainment fraction measurement in annular gas–liquid flow in a small diameter vertical tube , 2007 .
[13] Flavio Dobran,et al. Hydrodynamic and heat transfer analysis of two-phase annular flow with a new liquid film model of turbulence , 1983 .
[14] R.V.A. Oliemans,et al. Modelling of annular dispersed two-phase flow in vertical pipes , 1986 .
[15] D. Wilcox. Turbulence modeling for CFD , 1993 .
[16] M. Jensen. The liquid film and the core region velocity profiles in annular two-phase flow , 1987 .
[17] Salomon Levy,et al. Two-phase flow in complex systems , 1999 .
[18] D. Butterworth. An analysis of film flow and its application to condensation in a horizontal tube , 1974 .
[19] Michitsugu Mori,et al. Prediction of amount of entrained droplets in vertical annular two-phase flow , 2009 .
[20] J. Healzer,et al. Application of Mixing Length Theory to Wavy Turbulent Liquid—Gas Interface , 1981 .
[21] J. Thome,et al. Microscale Adiabatic Gas–Liquid Annular Two-Phase Flow: Analytical Model Description, Void Fraction, and Pressure Gradient Predictions , 2010 .
[22] Gherhardt Ribatski,et al. Flow boiling heat transfer of R134a and R245fa in a 2.3 mm tube. , 2010 .
[23] High Pressure Annular Two-Phase Flow in a Narrow Duct: Part II—Three-Field Modeling , 2000 .
[24] M. Shah. Chart correlation for saturated boiling heat transfer: Equations and further study , 1982 .
[25] K. Gungor,et al. Simplified general correlation for saturated flow boiling and comparisons of correlations with data , 1987 .
[26] Sreenivas Jayanti,et al. A multidimensional model for annular gas–liquid flow , 2004 .
[27] Kyriakos C. Giannakoglou,et al. A coupled two-phase shear layer/liquid film calculation method. Formulation of the physical problem and solution algorithm , 1994 .
[28] John R. Thome,et al. Flow boiling in horizontal smooth tubes: New heat transfer results for R-134a at three saturation temperatures , 2009 .
[29] James F. Klausner,et al. A separated flow model for predicting two-phase pressure drop and evaporative heat transfer for vertical annular flow , 1997 .
[30] Henryk Anglart,et al. Film flow measurements for high-pressure diabatic annular flow in tubes with various axial power distributions , 2006 .
[31] M. Ishii,et al. Interfacial area concentration in annular two-phase flow , 2007 .
[32] Manit Sujumnong. Heat transfer, pressure drop and void fraction in two- phase, two-component flow in a vertical tube , 1998 .
[33] G. Geraci,et al. Inclination effects on circumferential film flow distribution in annular gas/liquid flows , 2007 .
[34] S. Koyama,et al. An investigation on void fraction of vapor–liquid two-phase flow for smooth and microfin tubes with R134a at adiabatic condition , 2004 .
[35] R. Shah,et al. Handbook of single-phase convective heat transfer , 1987 .
[36] John R. Thome,et al. Flow boiling heat transfer of R134a, R236fa and R245fa in a horizontal 1.030 mm circular channel , 2009 .
[37] A. Ghajar,et al. Comparison of void fraction correlations for different flow patterns in horizontal and upward inclined pipes , 2007 .
[38] M. Ishii,et al. Droplet entrainment correlation in vertical upward co-current annular two-phase flow , 2008 .
[39] Geoffrey F. Hewitt,et al. Hydrodynamics and heat transfer in wavy annular gas-liquid flow: a computational fluid dynamics study , 1997 .
[40] G. Hewitt,et al. Data on the upwards annular flow of air-water mixtures , 1965 .
[41] E. Moeck,et al. A droplet interchange model for annular-dispersed, two-phase flow , 1972 .
[42] H. No,et al. Assessment of an entrainment model in annular-mist flow for a three-field TRAC-M , 2007 .
[43] G. H. Anderson,et al. Two-phase (gas—liquid) flow phenomena—I Pressure drop and hold-up for two-phase flow in vertical tubes , 1960 .
[44] John R. Thome,et al. Unified macro-to-microscale method to predict two-phase frictional pressure drops of annular flows , 2009 .
[45] Isao Kataoka,et al. Correlations for the mass transfer rate of droplets in vertical upward annular flow , 2005 .
[46] M. Cooper,et al. Saturated flow boiling of water in vertical tubes , 1989 .
[47] J. Thome,et al. Macro-to-microchannel transition in two-phase flow: Part 2 – Flow boiling heat transfer and critical heat flux , 2011 .
[48] J. C. Chen. Correlation for Boiling Heat Transfer to Saturated Fluids in Convective Flow , 1966 .
[49] W. Kays,et al. Turbulent Prandtl number : where are we ? , 1994 .
[50] Akio Kotani,et al. Experiments for liquid phase mass transfer rate in annular regime for a small vertical tube , 2005 .
[51] B. Azzopardi,et al. The effect of pipe diameter on the structure of gas/liquid flow in vertical pipes , 2010 .
[52] J. Würtz,et al. An experimental and theoretical investigation of annular steam-water flow in tubes and annuli at 30 to 90 bar , 1978 .
[53] K. Gungor,et al. A general correlation for flow boiling in tubes and annuli , 1986 .
[54] J. Thome,et al. Algebraic turbulence modeling in adiabatic gas–liquid annular two-phase flow , 2009 .
[55] S. Peng. Heat flux effect on the droplet entrainment and deposition in annular flow dryout , 2008 .
[56] Toshihiko Tanaka,et al. Studies of Liquid Film Flow in Two-Phase Annular and Annular-Mist Flow Regions : (Part 1, Downflow in a Vertical Tube) , 1974 .
[57] S. Jayanti,et al. Flow development in vertical annular flow , 2001 .
[58] Barry J. Azzopardi,et al. Turbulence modification in annular gas/liquid flow , 1999 .
[59] Joel Weisman. Multiphase Science and Technology (Vol. 1) , 1982 .
[60] H. Jakobsen,et al. Macroscopic description of droplet–film interaction for gas–liquid systems , 2009 .
[61] S. Qiu,et al. An investigation of flow characteristics and critical heat flux in vertical upward round tube , 2006 .
[62] G. R. Hall,et al. Correlation of forced convection boiling heat transfer data , 1982 .
[63] R. Mei,et al. Suppression of flow boiling nucleation , 1997 .
[64] G. Hewitt,et al. Sampling probe studies of the gas core in annular two-phase flow—II: Studies of the effect of phase flow rates on phase and velocity distribution , 1964 .
[65] J. Kestin,et al. Heat transfer across turbulent, incompressible boundary layers , 1963 .
[66] Masahiro Kawaji,et al. Investigation of interfacial area and void fraction in upward, cocurrent gas‐liquid flow , 1990 .
[67] C. P. Gupta,et al. A void fraction model for annular two-phase flow , 1985 .