Add to ORKGFlow in two scale porous media takes place in applications such as advanced composites manufacturing. Knowledge of this flow is of general importance and is crucial for filtration mechanisms when functional filler-particles are added to the liquid resin impregnating the fibrous preform. Means to model and experimentally visualise this flow is here investigated. In particular simulations performed with computational fluid dynamics and the boundary element method are compared to micro particle image velocimetry in a model geometry.Godkänd; 2008; Bibliografisk uppgift: CD-ROM; 20080828 (ysko
In present work, we attempt to unify the modeling of different sub-processes under the umbrella of t...
Abstract This paper presents currently available pore-scale predictive techniques for two-phase flow...
The simulation of fluid flow and particle transport in porous media finds important applications in ...
Flow in two scale porous media takes place in applications such as advanced composites manufacturing...
Flow through a two-scale porous medium is here investigated by a unique comparison between simulatio...
Injection processing of composite materials most often includes infiltration of a thermoset resin in...
The standard approach to modelling fluid flow through a porous medium was developed decades ago, whe...
Porous media are ubiquitous in chemical engineering. They are involved in many separation processes ...
Fibrous porous materials are involved in a wide range of applications including composite fabricatio...
The flow in microgeometries is of interest in applications such as bioanalysis systems, micro-valv...
Permeability is the fundamental macroscopic material property needed to quantify the flow in a fibro...
Abstract. Fluid flow through particulate media is pivotal in many industrial processes, e.g. in flui...
Some fibrous reinforcements used in the manufacturing of parts by Liquid Composite Molding (LCM) hav...
Flow of incompressible fluids through porous media plays a crucial role in many technological applic...
The incomplete saturation and the void formation during the resin infiltration into fibrous porous m...
In present work, we attempt to unify the modeling of different sub-processes under the umbrella of t...
Abstract This paper presents currently available pore-scale predictive techniques for two-phase flow...
The simulation of fluid flow and particle transport in porous media finds important applications in ...
Flow in two scale porous media takes place in applications such as advanced composites manufacturing...
Flow through a two-scale porous medium is here investigated by a unique comparison between simulatio...
Injection processing of composite materials most often includes infiltration of a thermoset resin in...
The standard approach to modelling fluid flow through a porous medium was developed decades ago, whe...
Porous media are ubiquitous in chemical engineering. They are involved in many separation processes ...
Fibrous porous materials are involved in a wide range of applications including composite fabricatio...
The flow in microgeometries is of interest in applications such as bioanalysis systems, micro-valv...
Permeability is the fundamental macroscopic material property needed to quantify the flow in a fibro...
Abstract. Fluid flow through particulate media is pivotal in many industrial processes, e.g. in flui...
Some fibrous reinforcements used in the manufacturing of parts by Liquid Composite Molding (LCM) hav...
Flow of incompressible fluids through porous media plays a crucial role in many technological applic...
The incomplete saturation and the void formation during the resin infiltration into fibrous porous m...
In present work, we attempt to unify the modeling of different sub-processes under the umbrella of t...
Abstract This paper presents currently available pore-scale predictive techniques for two-phase flow...
The simulation of fluid flow and particle transport in porous media finds important applications in ...