Add to ORKGSolute transport processes are influenced by pore-scale heterogeneity. To study this, transient micron-scale solute concentration fields were imaged by fast laboratory-based X-ray micro-computed tomography. We performed tracer injection experiments in three types of porous material with increasing levels of heterogeneity (sintered glass, Bentheimer sandstone and Savonnières limestone). Different Peclet numbers were used during the experiments. For each sample and Peclet number, datasets of 40 to 74 3D images were acquired by continuous scanning with a voxel size of 13.4 to 14.6 µm and a temporal resolution of 15 to 12 seconds. To determine the measurement uncertainty on the obtained concentration fields, we performed calibration experiments...
Fluid flow and dispersion of solute particles are modelled directly on three-dimensional pore-space ...
Many properties of complex porous media such as reservoir rocks are strongly affected by heterogenei...
We present a methodology to characterize a continuum-scale model of transport in porous media on the...
Solute transport processes are influenced by pore-scale heterogeneity. To study this, transient micr...
Solute transport is important in a variety of applications regarding flow in porous media, such as c...
Solute transport is important in a variety of applications regarding flow in porous media, such as c...
Abstract. X-ray computed tomography (CT) offers distinct advantages to study fundamental physical pr...
Solute transport in unsaturated porous materials is a complex process, which exhibits some distinct ...
A dynamic <sup>99m</sup>Tc tracer experiment was performed to investigate the capabilities of combin...
The analysis of dispersive flows in heterogeneous porous media is complicated by the appearance of a...
In this work, we present a novel laboratory-based micro-computed tomography (micro-CT) experiment de...
The Lattice Boltzmann (LB) model and X-ray computed tomography (CT) have been increasingly used in c...
The study of solute transport in porous media continues to find applications in both traditional and...
High resolution images acquired from X-ray micro-tomography provide 3D pore geometry on which flow a...
The spatio-temporal distribution (4D) of water in porous materials plays a fundamental role in many ...
Fluid flow and dispersion of solute particles are modelled directly on three-dimensional pore-space ...
Many properties of complex porous media such as reservoir rocks are strongly affected by heterogenei...
We present a methodology to characterize a continuum-scale model of transport in porous media on the...
Solute transport processes are influenced by pore-scale heterogeneity. To study this, transient micr...
Solute transport is important in a variety of applications regarding flow in porous media, such as c...
Solute transport is important in a variety of applications regarding flow in porous media, such as c...
Abstract. X-ray computed tomography (CT) offers distinct advantages to study fundamental physical pr...
Solute transport in unsaturated porous materials is a complex process, which exhibits some distinct ...
A dynamic <sup>99m</sup>Tc tracer experiment was performed to investigate the capabilities of combin...
The analysis of dispersive flows in heterogeneous porous media is complicated by the appearance of a...
In this work, we present a novel laboratory-based micro-computed tomography (micro-CT) experiment de...
The Lattice Boltzmann (LB) model and X-ray computed tomography (CT) have been increasingly used in c...
The study of solute transport in porous media continues to find applications in both traditional and...
High resolution images acquired from X-ray micro-tomography provide 3D pore geometry on which flow a...
The spatio-temporal distribution (4D) of water in porous materials plays a fundamental role in many ...
Fluid flow and dispersion of solute particles are modelled directly on three-dimensional pore-space ...
Many properties of complex porous media such as reservoir rocks are strongly affected by heterogenei...
We present a methodology to characterize a continuum-scale model of transport in porous media on the...