Add to ORKGThe purpose of this research is to validate a mathematical model for flow through saturated and unsaturated porous media using a bench-scale centrifuge for an accurate determination of the hydraulic conductivity (function of the saturation degree of a soil) within a limited time at a reasonable price. The aim of this paper is to show preliminary results of this investigation where the validation and calibration of the mathematical model is performed determining the hydraulic conductivity of saturated porous media, such as kaolin clay and glass porous filters, with a bench-scale centrifuge
This paper presents selected aspects of the model preparation and the experimental procedures used f...
Provided that inter-particle flow remains laminar, hydraulic conductivity tests can be carried out ...
To establish soil-water characteristic curves (SWCCs) of fine-grained soils, researchers have employ...
The purpose of this research is to validate a mathematical model for flow through saturated and unsa...
The purpose of this research is to validate a mathematical model for flow through saturated and unsa...
We utilize a bench-scale centrifuge to speed up the process of porous media inltration. This allows ...
Hydraulic conductivity modelling has been carried out using various conventional laboratory 1g tests...
Permeability of geomaterials is the most important parameter involved in the assessment of advection...
It is well established that the centrifuge can be an important tool to determine permeabilities of p...
The falling-head and rising-tail method for permeability test allows for both inflow and outflow rat...
Contamination of the groundwater regime and subsurface soils is one of the major problems that has a...
Centrifuge modelling is an established technique capable of investigating the ground?s response to c...
A centrifuge soil testing device, currently operated by researchers at the University of Arkansas, w...
abstract: In geotechnical engineering, measuring the unsaturated hydraulic conductivity of fine grai...
Centrifuge modelling is an established technique capable of investigating the ground’s response to c...
This paper presents selected aspects of the model preparation and the experimental procedures used f...
Provided that inter-particle flow remains laminar, hydraulic conductivity tests can be carried out ...
To establish soil-water characteristic curves (SWCCs) of fine-grained soils, researchers have employ...
The purpose of this research is to validate a mathematical model for flow through saturated and unsa...
The purpose of this research is to validate a mathematical model for flow through saturated and unsa...
We utilize a bench-scale centrifuge to speed up the process of porous media inltration. This allows ...
Hydraulic conductivity modelling has been carried out using various conventional laboratory 1g tests...
Permeability of geomaterials is the most important parameter involved in the assessment of advection...
It is well established that the centrifuge can be an important tool to determine permeabilities of p...
The falling-head and rising-tail method for permeability test allows for both inflow and outflow rat...
Contamination of the groundwater regime and subsurface soils is one of the major problems that has a...
Centrifuge modelling is an established technique capable of investigating the ground?s response to c...
A centrifuge soil testing device, currently operated by researchers at the University of Arkansas, w...
abstract: In geotechnical engineering, measuring the unsaturated hydraulic conductivity of fine grai...
Centrifuge modelling is an established technique capable of investigating the ground’s response to c...
This paper presents selected aspects of the model preparation and the experimental procedures used f...
Provided that inter-particle flow remains laminar, hydraulic conductivity tests can be carried out ...
To establish soil-water characteristic curves (SWCCs) of fine-grained soils, researchers have employ...