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Mixed-wet percolation on a dual square lattice

Author

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  • Das, Jnana Ranjan
  • Sinha, Santanu
  • Hansen, Alex
  • Santra, Sitangshu B.

Abstract

We present a percolation model that is inspired by recent works on immiscible two-phase flow in a mixed-wet porous medium made of a mixture of grains with two different wettability properties. The percolation model is constructed on a dual lattice where the sites on the primal lattice represent the grains of the porous medium, and the bonds on the dual lattice represent the pores in between the grains. The bonds on the dual lattice are occupied based on the two adjacent sites on the primal lattice, which represent the pores where the capillary forces average to zero. The spanning cluster of the bonds, therefore, represents the flow network through which the two immiscible fluids can flow without facing any capillary barrier. It turns out to be a percolation transition of the perimeters of a site percolation problem. We study the geometrical properties at the criticality of the perimeter system numerically. A scaling theory is developed for these properties, and their scaling relations with the respective density parameters are studied. We also verified their finite-size scaling relations. Though the site clusters and their perimeters look very different compared to ordinary percolation, the singular behaviour of the associated geometrical properties remains unchanged. The critical exponents are found to be those of the ordinary percolation.

Suggested Citation

  • Das, Jnana Ranjan & Sinha, Santanu & Hansen, Alex & Santra, Sitangshu B., 2025. "Mixed-wet percolation on a dual square lattice," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 679(C).
    • Handle: RePEc:eee:phsmap:v:679:y:2025:i:c:s0378437125006090
    DOI: 10.1016/j.physa.2025.130957
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    References listed on IDEAS

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    1. Feng Guo & Saman A. Aryana, 2019. "An Experimental Investigation of Flow Regimes in Imbibition and Drainage Using a Microfluidic Platform," Energies, MDPI, vol. 12(7), pages 1-13, April.
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