Add to ORKGA numerical model for simulating the microhydrodynamics inside different pore sizes was developed in this work, using a continuous penalty finite element scheme. This scheme combines the flexibility in modelling two phase systems, as the one simulated in this work with accuracy. The volume of fluid (VOF) method was applied to track the motion of the gasliquid interfacial boundary as an approach to monitor the repulsion of the wetting liquid from the pores to detect their bubble pressures. To resolve the complexities arising from the inclusion of the surface tension at the liquid-gas interface as an unknown dynamic condition it is treated as a resistance force in the equations of motion. The effects of the surface tension and other forces su...
This PhD study is devoted to numerically quantify the hydrodynamic characteristics in FS modules, su...
Bubbles are known to have important effects in hydrodynamic facilities such as cavitation tunnels, h...
The main problem in liquid porosimetry, which prevents to see the pore sizes smaller than 2 microns ...
Filtration is a commonly used separation process. Many researchers have looked at the different prop...
Nowadays the use of membrane filtration process is rapidly increasing in industrial fields, especial...
Prediction of bubble formation during filling of microchambers is often critical for determining the...
This work reports the effects of gas extraction through flat vertical membranes on bubble dynamics i...
This paper presents a simple and efficient method for removing gas bubbles from a microfluidic syste...
AbstractMembrane separations are widely used across a range of food and beverage industries, includi...
Membrane filtration is used in a variety of industries, including water treatment and the food indus...
The spectral element marker particle (SEMP) method is a high-order numerical scheme for modelling mu...
The typical characteristics of membranes can be estimated directly from experimental data. To succes...
The measurement of the gas permeability coefficient as a function of the mean pressure across a memb...
peer reviewedMembrane distillation (MD) is a thermally driven separation process that is operated be...
This PhD study is devoted to numerically quantify the hydrodynamic characteristics in FS modules, su...
Bubbles are known to have important effects in hydrodynamic facilities such as cavitation tunnels, h...
The main problem in liquid porosimetry, which prevents to see the pore sizes smaller than 2 microns ...
Filtration is a commonly used separation process. Many researchers have looked at the different prop...
Nowadays the use of membrane filtration process is rapidly increasing in industrial fields, especial...
Prediction of bubble formation during filling of microchambers is often critical for determining the...
This work reports the effects of gas extraction through flat vertical membranes on bubble dynamics i...
This paper presents a simple and efficient method for removing gas bubbles from a microfluidic syste...
AbstractMembrane separations are widely used across a range of food and beverage industries, includi...
Membrane filtration is used in a variety of industries, including water treatment and the food indus...
The spectral element marker particle (SEMP) method is a high-order numerical scheme for modelling mu...
The typical characteristics of membranes can be estimated directly from experimental data. To succes...
The measurement of the gas permeability coefficient as a function of the mean pressure across a memb...
peer reviewedMembrane distillation (MD) is a thermally driven separation process that is operated be...
This PhD study is devoted to numerically quantify the hydrodynamic characteristics in FS modules, su...
Bubbles are known to have important effects in hydrodynamic facilities such as cavitation tunnels, h...
The main problem in liquid porosimetry, which prevents to see the pore sizes smaller than 2 microns ...