Add to ORKGIn this paper we present a detailed analysis of large scale experimental data from the SINTEF Multiphase Laboratory on high-rate low liquid loading flows. The experimental work [1] was funded by Equinor as part of the Tanzania gas field development project [2] [3] [4], and SINTEF was granted access to use the data for improving the accuracy of the pressure drop predictions in LedaFlow. The experimental results showed that a key element for predicting high-rate low liquid loading flows accurately is to account for the droplets that deposit on the walls in the gas zone, creating a wall film. This wall film can have a profound effect on the hydraulic roughness experienced by the gas, and subsequently the frictional pressure drop. Furthermore, ...
Gas well liquid loading occurs when gas production becomes insufficient to lift the associated liqui...
To help predict hydrocarbon emissions during cold-start conditions the authors are developing a nume...
In oil/water flows with very low water rates, the steady-state water fraction jumps discontinuously ...
A new experimental setup, for investigation of a possible pressure drop reduction in gas transport p...
A comprehensive three-phase flow campaign, funded by Equinor as part of the Tanzania gas field devel...
A comprehensive three-phase flow campaign, funded by Equinor as part of the Tanzania gas field devel...
A wall film model has been implemented in a customized version of KIVA-3 code developed at Universit...
Liquid loading in gas wells may slash production rates, shorten production life, or even stop produc...
Gas-well liquid loading occurs when gas production becomes insufficient to lift the associated liqui...
The influence of hydrophobic and hydrophilic tube walls on the pressure drop and liquid loading beha...
Shear-driven liquid film flows can occur in several locations of fuel preparation systems, e.g. insi...
In this work, numerical investigations of impinging drops on dry and wet walls are reported. A multi...
Gas-liquid two-phase interfacial flows, such as the liquid film flows (also known as wetting flows o...
[EN] This paper presents a new model developed to predict the area of wall films that may develop in...
Shear-driven liquid film flows can occur in several locations of fuel preparation systems, e.g. insi...
Gas well liquid loading occurs when gas production becomes insufficient to lift the associated liqui...
To help predict hydrocarbon emissions during cold-start conditions the authors are developing a nume...
In oil/water flows with very low water rates, the steady-state water fraction jumps discontinuously ...
A new experimental setup, for investigation of a possible pressure drop reduction in gas transport p...
A comprehensive three-phase flow campaign, funded by Equinor as part of the Tanzania gas field devel...
A comprehensive three-phase flow campaign, funded by Equinor as part of the Tanzania gas field devel...
A wall film model has been implemented in a customized version of KIVA-3 code developed at Universit...
Liquid loading in gas wells may slash production rates, shorten production life, or even stop produc...
Gas-well liquid loading occurs when gas production becomes insufficient to lift the associated liqui...
The influence of hydrophobic and hydrophilic tube walls on the pressure drop and liquid loading beha...
Shear-driven liquid film flows can occur in several locations of fuel preparation systems, e.g. insi...
In this work, numerical investigations of impinging drops on dry and wet walls are reported. A multi...
Gas-liquid two-phase interfacial flows, such as the liquid film flows (also known as wetting flows o...
[EN] This paper presents a new model developed to predict the area of wall films that may develop in...
Shear-driven liquid film flows can occur in several locations of fuel preparation systems, e.g. insi...
Gas well liquid loading occurs when gas production becomes insufficient to lift the associated liqui...
To help predict hydrocarbon emissions during cold-start conditions the authors are developing a nume...
In oil/water flows with very low water rates, the steady-state water fraction jumps discontinuously ...