The structure and transport properties of drying water clusters in porous media have been studied with a site-bond invasion percolation (IP) model. In this model an invader (air) enters a lattice (porous network) filled with defender (water) via a sequence of invasion steps. The decision to invade a site (pore) is made on the basis of the resistance of the bonds (throats). It is found that the backbone of the defender network and its transport properties are the same as in ordinary percolation (OP). In particular the strength exponent of the backbone beta /sub B/=0.99+or-0.03, the correlation length exponent nu =0.88, and the conductivity exponent mu =1.99+or-0.04 are the same as in OP. The total network deviates from networks generated wit...
Wetting of bentonite is a complex hydro-mechanical process that involves swelling and, if confined, ...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
A pore scale network model is developed to predict the dynamics of moisture diffusion into complex c...
The structure and transport properties of drying water clusters in porous media have been studied wi...
Invasion percolation is studied on a correlated porous network described through a site-bond model ...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
The influence of temperature gradients on the drying of water-saturated porous networks has been stu...
A three equation continuum model of drying is presented. The model explicitly considers the liquid p...
Percolation objects were fabricated based on computer-generated, two- or three-dimensional templates...
The influence of stabilizing hydrostatic pressure gradients on the drainage of a fractal porous medi...
We study how the dynamics of a drying front propagating through a porous medium are affected by small...
Based on computer-generated templates, percolation objects were fabricated. Random-site, semi-contin...
The effects of wettability alterations in a 2D network model of a porous media has been studied. By ...
The transport of salt and water during drying has been studied in systems consisting of a substrate ...
Many processes of great engineering importance take place in heterogeneous and disordered materials ...
Wetting of bentonite is a complex hydro-mechanical process that involves swelling and, if confined, ...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
A pore scale network model is developed to predict the dynamics of moisture diffusion into complex c...
The structure and transport properties of drying water clusters in porous media have been studied wi...
Invasion percolation is studied on a correlated porous network described through a site-bond model ...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
The influence of temperature gradients on the drying of water-saturated porous networks has been stu...
A three equation continuum model of drying is presented. The model explicitly considers the liquid p...
Percolation objects were fabricated based on computer-generated, two- or three-dimensional templates...
The influence of stabilizing hydrostatic pressure gradients on the drainage of a fractal porous medi...
We study how the dynamics of a drying front propagating through a porous medium are affected by small...
Based on computer-generated templates, percolation objects were fabricated. Random-site, semi-contin...
The effects of wettability alterations in a 2D network model of a porous media has been studied. By ...
The transport of salt and water during drying has been studied in systems consisting of a substrate ...
Many processes of great engineering importance take place in heterogeneous and disordered materials ...
Wetting of bentonite is a complex hydro-mechanical process that involves swelling and, if confined, ...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
A pore scale network model is developed to predict the dynamics of moisture diffusion into complex c...