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Numerical prediction of phase separation in two-phase flow through T- junctions. (English) Zbl 0800.76329

MSC:
76M25 Other numerical methods (fluid mechanics) (MSC2010)
76T99 Multiphase and multicomponent flows
76F10 Shear flows and turbulence
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[1] Seeger, W; Reiman, J; Muller, U, Two-phase flow in a T-junction with a horizontal inlet, Int. J. multiphase flow, 12, 575, (1986), Parts I and II
[2] Azzopardi, B.J; Whalley, P.B, The effect of flow patterns on two-phase flow in a T junction, Int. J. multiphase flow, 8, 491, (1982)
[3] Azzopardi, B.J; Purvis, A, Measurements of the split of a two-phase flow at a vertical T junction, ()
[4] Hwang, S.T; Soliman, H.M; Lahey, R.T, Phase separation in dividing two-phase flows, Int. J. multiphase flow, 14, 439, (1988)
[5] Azzopardi, B.J, The effect of the side arm diameter on the two-phase split at a T-junction, Int. J. multiphase flow, 10, 509, (1984)
[6] Lahey, R.T, Current understanding of phase separation mechanisms in branching conduits, Nucl. engng des., 95, 145, (1986)
[7] Azzopardi, B.J; Memory, A, The split of two-phase flow at a horizontal T—annular and stratified flow, ()
[8] Azzopardi, B.J; Smith, P.A, Two-phase flow split at T-junctions with horizontal and vertically upward side arms, () · Zbl 1144.76342
[9] Honan, T.J; Lahey, R.T, The measurement of phase separation in wyes and tees, Nucl. engng des., 64, 93, (1981)
[10] Saba, N; Lahey, R.T, The analysis of phase separation phenomena in branching conduits, Int. J. multiphase flow, 10, 1, (1984)
[11] Taitel, Y; Dukler, A.E, A model for predicting flow regime transitions in horizontal and near horizontal gas-liquid flow, Aiche jl, 22, 47, (1976)
[12] Taitel, Y; Barnea, D; Dukler, A.E, Modelling flow pattern transitions for steady upward gas-liquid flow in vertical tubes, Aiche jl, 26, 345, (1980)
[13] Lahey, R.T, Dividing flow in a tee junction (data set no. 9), (), 316
[14] Ballyk, J.D; Shoukri, M; Chan, A.M, Steam-water annular flow in a horizontal dividing T-junction, Int. J. multiphase flow, 14, 265, (1988)
[15] Rubel, M.T; Soliman, H.M; Sims, G.E, Phase distribution during steam-water flow in a horizontal T-junction, Int. J. multiphase flow, 14, 425, (1988)
[16] Popp, M; Sallet, D.W, Experimetnal investigation of one- and two-phase flow through a tee-junction, ()
[17] Davis, M.R; Fungtamasan, B, Two-phase flow through pipe branch junctions, Int. J. multiphase flow, 16, 799, (1990) · Zbl 1134.76522
[18] McCreery, G.E; Banerjee, S, Phase separation of dispersed mist and dispersed annular (rivulet and thin film) flow in a tee—I. experiments, Int. J. multiphase flow, 16, 429, (1990) · Zbl 1134.76608
[19] Fouda, A.E; Rhodes, E, Two phase annular flow stream division in a simple tee, Trans. instn chem. engrs, 52, 354, (1974)
[20] J.G. Collier, from Ref. [6]
[21] Hong, K.C, Two-phase flow splitting at a pipe tee, J. pipeline technol., 30, 290, (1978)
[22] Henry, J.A.R, Dividing annular flow in a horizontal tee, Int. J. multiphase flow, 7, 343, (1981)
[23] Whalley, P.B; Azzopardi, B.J, Two-phase flow in a ‘T’ junction, ()
[24] Azzopardi, B.J; Baker, S.R, Two-phase flow in a T junction: the effect of flow pattern in vertical upflow, ()
[25] Azzopardi, B.J; Freeman-Bell, G, The effect of side arm diamter on the two phase flow split at a T-junction, ()
[26] Ishii, M, Thermo-fluid dynamic theory of two-phase flow, (1975), Eyrolles Paris · Zbl 0325.76135
[27] Zuber, N, On the dispersed two-phase flow in the laminar flow regime, Chem. engng sci., 19, 897, (1964)
[28] Gosman, A.D; Issa, R.I; Lekakou, C; Looney, M.K; Politis, S, Multidimensional modelling of turbulent two-phase flows in stirred vessels, Aiche jl, 38, 1853, (1992)
[29] Politis, S, Prediction of two-phase solid-liquid turbulent flow in stirred vessels, ()
[30] Launder, B.E; Spalding, D.B, Mathematical models of turbulence, (1972), Academic Press London · Zbl 0288.76027
[31] Rhie, C.M; Chow, W.L, Numerical study of the turbulent flow past an airfoil with trailing edge separation, Aiaa jl, 21, 1525, (1983) · Zbl 0528.76044
[32] Pollard, A; Spalding, D.B, On the three-dimensional laminar flow in a tee-junction, Int. J. heat mass transfer, 23, 1605, (1980)
[33] Patankar, S.V; Spalding, D.B, A calculation procedure for heat, mass and momentum transfer in three-dimensional parabolic flows, Int. J. heat mass transfer, 15, 1787, (1972) · Zbl 0246.76080
[34] Ellul, I; Issa, R.I, Prediction of the flow of interspersed gas and liquid phases through pipe bends, Chem. engng res. des., 65, (1987), Jan
[35] Peric, M, A finite volume method for the prediction of three-dimensional fluid flow in complex geometries, ()
[36] Issa, R.I, Cell-face velocities on non-staggered meshes, ()
[37] Oliveira, P.J, Computer modelling of multidimensional multiphase flow and application to T-junctions, ()
[38] Issa, R.I, Solution of the implicitly discretized fluid flow equations by operator-splitting, J. comput. phys., 62, 40, (1986) · Zbl 0619.76024
[39] Launder, B.E; Reynolds, W.C; Rodi, W, ()
[40] Issa, R.I; Oliveira, P.J, A multidimensional approach to the prediction of two-phase flow in T-junctions, () · Zbl 0800.76329
[41] Bankoff, S.G, A variable density single-fluid model for two-phase flow with particular reference to steam-water flow, Trans. ASME jl heat transfer, 82, 265, (1960)
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