Droplet transport in oil/gas and water/gas flow at high gas densities

“…This ''deviatoric behavior" was also found in the data by Tayebi et al (2000), as noted above, noting that the gas velocities were smaller and the gas density larger in the Tayebi data. To explain these anomalies in the droplet concentration profile, two hypotheses have been suggested by many authors: (1) Reynolds stress driven secondary flows in the pipe cross section generate sufficient cross sectional transport of droplets (Speziale, 1982, Williams et al, 1996, or (2) turbulence inhomogeneity modulates the distribution of droplets due to turbophoresis (Reeks, 1992).…”

“…The experiments were carried out using an iso-kinetic probe, as described in detail by Tayebi et al (2000). We use four test cases taken from the Tayebi data.…”

“…Such modelling consists of an exponential concentration profile for each droplet size, by assuming constant diffusivity (homogeneous turbulence) throughout the flow cross section. The data examined in this work were those of Tayebi et al (2000), that covers the vertical diameter in a horizontal pipe.…”

“…Section 4 describes the calculation of concentration profiles. In Section 5 we compare the results to the experimental data of Tayebi et al (2000). These experiments were done in a horizontal pipe of inner diameter of 9.95 cm containing Exxsol-D80 oil and dense SF 6 gas.…”

A droplet transport model for channel and pipe flow based on particle kinetic theory and a stress–ω turbulence model

“…This ''deviatoric behavior" was also found in the data by Tayebi et al (2000), as noted above, noting that the gas velocities were smaller and the gas density larger in the Tayebi data. To explain these anomalies in the droplet concentration profile, two hypotheses have been suggested by many authors: (1) Reynolds stress driven secondary flows in the pipe cross section generate sufficient cross sectional transport of droplets (Speziale, 1982, Williams et al, 1996, or (2) turbulence inhomogeneity modulates the distribution of droplets due to turbophoresis (Reeks, 1992).…”

“…The experiments were carried out using an iso-kinetic probe, as described in detail by Tayebi et al (2000). We use four test cases taken from the Tayebi data.…”

“…Such modelling consists of an exponential concentration profile for each droplet size, by assuming constant diffusivity (homogeneous turbulence) throughout the flow cross section. The data examined in this work were those of Tayebi et al (2000), that covers the vertical diameter in a horizontal pipe.…”

“…Section 4 describes the calculation of concentration profiles. In Section 5 we compare the results to the experimental data of Tayebi et al (2000). These experiments were done in a horizontal pipe of inner diameter of 9.95 cm containing Exxsol-D80 oil and dense SF 6 gas.…”

A droplet transport model for channel and pipe flow based on particle kinetic theory and a stress–ω turbulence model

“…[1][2][3][4][5][6] A great number of ways such as theoretical models, experimental methods and simulation approaches have been adopted to characterize the water-gas flow, among which some analytical solutions for the hydraulic properties of unsaturated hydraulic properties of fracture networks have been proposed. [7][8][9][10][11][12] Besides, the fractal dimension that can be used to quantify the geometric properties such as fracture length and aperture distributions of rock fractures has been widely accepted and incorporated into these models.…”

Analytical Solutions for Water–gas Flow Through 3d Rock Fracture Networks Subjected to Triaxial Stresses

Influence of gas density on void fraction and pressure drop in upward vapor–liquid flow