论文信息 - Prediction in stratified gas-liquid co-current flow in horizontal pipelines

Prediction in stratified gas-liquid co-current flow in horizontal pipelines

Abstract The predictive performance of existing models based on momentum balances has been shown to be generally unsatisfactory. An iterative procedure was developed for the prediction of pressure drop and holdup that incorporated new relationships for the interfacial and liquid friction factors in the solution of the phase momentum balance equations for two phase horizontal co-current flow. The method adequately predicted data for the film plus droplet, annular roll wave and stratified type regimes. Successful performance was achieved regardless of fluid properties or pipe diameter. For gas flow rates, where non-uniform stratified flow with an interfacial level gradient occurred, this method of prediction was inaccurate and open channel flow theory recommended. Thus the model did not apply to the intermittent or non-uniform flow regimes.

P. L. Spedding | P. Spedding | N. P. Hand | N. Hand

[1] D. E. Woodmansee,et al. A model for roll waves in gas-liquid flow , 1971 .

[2] A. Dukler,et al. A model for predicting flow regime transitions in horizontal and near horizontal gas‐liquid flow , 1976 .

[3] Nicholas P. Cheremisinoff,et al. Stratified turbulent‐turbulent gas‐liquid flow , 1979 .

[4] Alain Bourgeat,et al. Two-phase flow , 1996 .

[5] Thomas J. Hanratty,et al. Effect of waves at a gas—liquid interface on a turbulent air flow , 1968, Journal of Fluid Mechanics.

[6] A. A. Bishop,et al. Interfacial level gradient effects in horizontal newtonian liquid-gas stratified flow—i , 1986 .

[7] R. Lockhart. Proposed Correlation of Data for Isothermal Two-Phase, Two-Component Flow in Pipes , 1949 .

[8] J. E. Kowalski. Wall and interfacial shear stress in stratified flow in a horizontal pipe , 1987 .

[9] Paolo Andreussi,et al. STRATIFIED GAS-LIQUID FLOW IN DOWNWARDLY INCLINED PIPES , 1987 .

[10] Peter Spedding,et al. Measurement and prediction of pressure drop in two‐phase flow , 1995 .

[11] J.M.H. Fortuin,et al. Correlations predicting frictional pressure drop and liquid holdup during horizontal gas-liquid pipe flow with a small liquid holdup , 1989 .

[12] G. A. Gregory,et al. An analysis of horizontal stratified two phase flow in pipes , 1973 .

[13] M. Landman. Non-unique holdup and pressure drop in two-phase stratified inclined pipe flow , 1991 .