Minkowski functional evaluation of representative elementary volume of rock microtomography images at multiple resolutions

•Hydraulic pore-scale properties during REV evaluations were estimated by Minkowski functionals.•Sandstone and carbonate rocks were scanned at multiple resolutions by laboratory and synchrotron tomography.•REVs for porosity, permeability, surface area, tortuosity, and Minkowski functionals were comp...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Veröffentlicht in:Advances in water resources 2023-09, Vol.179, p.104501, Article 104501
Hauptverfasser: Sadeghnejad, Saeid, Reinhardt, Marcel, Enzmann, Frieder, Arnold, Pit, Brandstätter, Bianca, Wilde, Fabian, Hupfer, Sarah, Schäfer, Thorsten, Kersten, Michael
Format: Artikel
Sprache:eng
Schlagworte:
Online-Zugang:Volltext
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:•Hydraulic pore-scale properties during REV evaluations were estimated by Minkowski functionals.•Sandstone and carbonate rocks were scanned at multiple resolutions by laboratory and synchrotron tomography.•REVs for porosity, permeability, surface area, tortuosity, and Minkowski functionals were computed.•REV for the integrals of mean and total curvature agreed well with the permeability REV for large-volume image sizes.•At constant porosity, the Minkowski integrals were found to be indicators for pore throat sizes.•Properties obtained from the rebinned images differ entirely from that of actual scans at the same resolution. Pore-scale properties can be obtained by building a reliable digital twin of porous media through the digital rock physics (DRP) workflow. The two prerequisites of DRP are reliable imaging and computing power. Determining a proper image resolution that can reveal the actual pore-scale properties is challenging as there is a trade-off between the resolution and the representative elementary volume (REV). The REV is the smallest volume that reproduces the properties of the whole porous medium. The REV is a function of heterogeneities on the pore scale, the parameter of interest, and the scale range. Although the REV analysis for hydraulic properties is straightforward, it is computationally expensive. This study aims to estimate hydraulic pore-scale properties during REV evaluations by the geometric characterization of porous media using the Minkowski morphological functionals. Two sandstone and one carbonate rock samples were scanned at multiple imaging resolutions by both laboratory and synchrotron tomography. The REVs of various parameters of interest (porosity, permeability, surface area, tortuosity, Minkowski functionals) were computed, and the effect of image resolution and artificial rebinning on the final REV values was examined. After reaching the REV for porosity, the REV for the integrals of mean and total curvature agreed well with the permeability REV for large-volume image sizes. At constant porosity, the Minkowski integrals were found to be indicators for pore throat sizes. We also showed that the properties obtained from the rebinned (or coarsened) images differ entirely from that of actual scans at the same resolution. [Display omitted]
ISSN:0309-1708
1872-9657
DOI:10.1016/j.advwatres.2023.104501