Invasion percolation is studied on a correlated porous network described through a site-bond model which has proven to be useful for the characterization of real porous media. It is shown how the correlation degree affects the advance velocity of the invasion front, the fraction of invaded sites and bonds and the number of islands of trapped defender fluid (which are completely surrounded by invaded elements) and their size distribution. The fractal dimension of the percolating cluster, on the other hand, does not seem to be influenced by the correlation degree. As a novel result, a characteristic correlation length is found to exist which maximizes the mean invasion velocity.
Abstract. We present a model for the solidification process of two immiscible fluids interacting rep...
Employing highly efficient algorithms for simulating invasion percolation (IP), whose execution time...
Fractals are a relatively recent development in mathematics that show promise as a foundation for mo...
We present results on Monte Carlo simulations for invasion percolation with trapping considering the...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
Invasion percolation with trapping (TIP) is studied on two kinds of pore networks. The first class o...
Starting from the analysis of correlated percolation lattices, we develop a new predictive model for...
We present the results of extensive Monte Carlo simulations of the invasion percolation model with t...
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...
In this Letter we give experimental grounding for the remarkable observation made by Furuberg et al....
The structure and transport properties of drying water clusters in porous media have been studied wi...
The invasion percolation model is used to investigate the effect of correlated heterogeneity on capi...
Using large scale computer simulations and pore network models of porous rock, we investigate the ef...
We study the spatial correlation of one-dimensional (1-D) saturation profiles obtained during slow d...
Abstract. We present a model for the solidification process of two immiscible fluids interacting rep...
Employing highly efficient algorithms for simulating invasion percolation (IP), whose execution time...
Fractals are a relatively recent development in mathematics that show promise as a foundation for mo...
We present results on Monte Carlo simulations for invasion percolation with trapping considering the...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
Invasion percolation with trapping (TIP) is studied on two kinds of pore networks. The first class o...
Starting from the analysis of correlated percolation lattices, we develop a new predictive model for...
We present the results of extensive Monte Carlo simulations of the invasion percolation model with t...
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...
In this Letter we give experimental grounding for the remarkable observation made by Furuberg et al....
The structure and transport properties of drying water clusters in porous media have been studied wi...
The invasion percolation model is used to investigate the effect of correlated heterogeneity on capi...
Using large scale computer simulations and pore network models of porous rock, we investigate the ef...
We study the spatial correlation of one-dimensional (1-D) saturation profiles obtained during slow d...
Abstract. We present a model for the solidification process of two immiscible fluids interacting rep...
Employing highly efficient algorithms for simulating invasion percolation (IP), whose execution time...
Fractals are a relatively recent development in mathematics that show promise as a foundation for mo...