Details zur Publikation

Kategorie Textpublikation
Referenztyp Zeitschriften
DOI 10.1029/2021WR030037
Lizenz creative commons licence
Titel (primär) New structural percolation transition in fractional wet 3D-porous media: A comparative µ-CT study
Autor Geistlinger, H.; Zulfiqar, B.; Schlueter, S.; Amro, M.
Journal / Serie Water Resources Research
Erscheinungsjahr 2021
Department BOSYS
Band/Volume 57
Heft 10
Seite von e2021WR030037
Sprache englisch
Topic T5 Future Landscapes
Keywords micro-CT; fractional wet porous media; percolation transition
Abstract Natural porous media possess spatial heterogeneous (fractional) wettability, which controls the multiphase flow behavior, i.e., displacement and trapping. We used mixed hydrophilic (contact angle θ = 0°) and hydrophobic (θ = 100°) 1 mm sands and 1mm glass beads as model systems for fractional wet porous media. Both porous media have the same morphological characteristics (Minkowski functions). A comparative μ-CT study of such fractional wet systems is lacking in the literature. A previous study (Geistlinger and Zulfiqar, 2020) showed a percolation transition of the invading fluid from compact to fractal displacement when the wettability changed from imbibition to drainage. This correlates to a transition from no to maximal trapping. For the first time, we observed in fractional wet glass bead packs, a second structural percolation transition with a percolation threshold of approximately 50% hydrophobic glass beads. Below this threshold, the percolating cluster consisted of hydrophilic glass beads, which resulted in compact displacement without any trapping. Above the threshold, the percolating cluster consisted of hydrophobic glass beads, which resulted in fractal displacement with maximal trapping. Trapping occurred only in hydrophobic environments/configurations, i.e., when the trapped clusters were surrounded by hydrophobic glass beads. Fractional wet glass beads and sands show an opposite trapping behavior, i.e. the trapping efficiency increases for glass beads, whereas it decreases for sands with increasing percentage of hydrophobic grains. Interestingly, the trapping efficiency approaches the same limit value for pure hydrophobic sands and glass beads. This demonstrates that bypass trapping is the dominant trapping mechanism, because it depends strongly on the pore connectivity.
dauerhafte UFZ-Verlinkung
Geistlinger, H., Zulfiqar, B., Schlueter, S., Amro, M. (2021):
New structural percolation transition in fractional wet 3D-porous media: A comparative µ-CT study
Water Resour. Res. 57 (10), e2021WR030037