Saturation in Regular, Exotic and Random Pore Networks

@article{Vizi2018SaturationIR,
  title={Saturation in Regular, Exotic and Random Pore Networks},
  author={Mate B. Vizi and P'eter 'Arp'ad Mizs'ak and Tam'as Kalm'ar-Nagy},
  journal={Fluctuation and Noise Letters},
  year={2018}
}
Porcolation simulations were carried out on various networks: both regular and irregular. The saturation curve was obtained for cubic networks, localized and completely random 3D networks and networks based on exotic graphs like Sierpiński triangle and carpet. For the random graph generation, a modification of the cell list algorithm was introduced, which is capable of generating local random graphs efficiently. With the help of this graph generation method, the effect of locality was… 
[PDF] Semantic Reader
1 Citations

One Citation

A Size-Perimeter Discrete Growth Model for Percolation Clusters

The proposed model exhibits (by design) the expected phase transition of percolation models, i.e., it diverges at the percolated threshold.

References

SHOWING 1-10 OF 30 REFERENCES

Generating Simple Random Graphs with Prescribed Degree Distribution

Let F be a probability distribution with support on the non-negative integers. Four methods for generating a simple undirected graph with (approximate) degree distribution F are described and

Some Cluster Size and Percolation Problems

The problem of cluster size distribution and percolation on a regular lattice or graph of bonds and sites is reviewed and its applications to dilute ferromagnetism, polymer gelation, etc., briefly

Numerical studies of critical percolation in three dimensions

Presents results of high-statistics simulations of the spreading of 3D percolation close to the critical point. The main results are: (i) a more precise estimate of the spreading (resp. 'chemical

Porcolation: An Invasion Percolation Model for Mercury Porosimetry

Mercury porosimetry is utilized primarily in the oil industry to determine the pore size distribution of rock samples. During the process, mercury is forced into the sample with gradually increasing

OpenPNM: A Pore Network Modeling Package

This work outlines the OpenPNM package, which was jointly developed by several porous media research groups to help address the gap in software options for simulating multiphase transport in porous materials.

Modelling Pore Structure By 2-D And 3-D Networks With ApplicationTo Sandstones

The present investigation is a study of the properties of 2-dimensional (2-D) and S-D network models of capillary tubes generalized for any pore size distribution and it was found that the accessibility of pores and the pseudo dead-end pore fractions are determined by the dimensionality of the network, the coordination num­ ber of thenetwork and the topology of pore inter­ connectedness at the microscopic level.

Evaluation of mercury porosimeter experiments using a network pore structure model

A note on percolation theory

In percolation theory the critical probability Pc(G) of an infinite connected graph G is defined as the supremum of those values of the occupation probability for which only finite clusters occur. An

Site percolation threshold for square lattice

In order to find out as precisely as possible the site percolation threshold in the square lattice, a Fortran high speed Monte Carlo program has been developed (2.2-2.4 mu s per site on CDC Cyber 76)

The modeling of mercury porosimetry and the relative permeability of mercury in sandstones using percolation theory

Drainage-type penetration into a number of regular networks representing the pore space was simulated on the computer with the help of a modified-site percolation approach. All of the networks are