Digital rock physics
- Over the last 3 decades, Digital Rock Physics (DRP) has become a complementary part of the characterization of reservoir rocks due to the non-destructive testing character of this technique. The use of high-resolution X-ray Computed Tomography (XRCT) has become widely accepted to create a digital twin of the material under investigation. Compared to other imaging techniques, XRCT technology allows a location-dependent resolution of the individual material particles in volume. However, there are still challenges in assigning physical properties to a particular voxel within the digital twin, due to standard histogram analysis or sub-resolution features in the rock. For this reason, high-resolution image-based data from XRCT, transmitted-light microscope, Scanning Electron Microscope (SEM) as well as geological input properties like geological diagenesis, mineralogical composition, sample's microfabrics, and estimated sample's porosity are combined to obtain an optimal spatial segmented image of the studied Ruhr sandstone. Based on a homogeneity test, which corresponds to the evaluation of the gray-scale image histogram, the preferred scan sample sizes in terms of permeability, thermal, and effective elastic rock properties are determined. In addition, these numerically derived property predictions are compared with laboratory measurements to obtain possible upper limits for sample size, segmentation accuracy, and a geometrically calibrated digital twin of the Ruhr sandstone. The comparison corresponding gray-scale image histograms as a function of sample sizes with the corresponding advanced numerical simulations provides a unique workflow for reservoir characterization of the Ruhr sandstone.
Author: | Martin BalcewiczGND, Mirko SiegertGND, Marcel GurrisGND, Matthias RufGND, David KrachGND, Holger SteebORCiDGND, Erik H. SaengerORCiDGND |
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URN: | urn:nbn:de:hbz:294-83823 |
DOI: | https://doi.org/10.3389/feart.2021.673753 |
Parent Title (English): | Frontiers in earth science |
Subtitle (English): | a geological driven workflow for the segmentation of anisotropic Ruhr sandstone |
Publisher: | Frontiers Media |
Place of publication: | Lausanne |
Document Type: | Article |
Language: | English |
Date of Publication (online): | 2021/10/20 |
Date of first Publication: | 2021/06/29 |
Publishing Institution: | Ruhr-Universität Bochum, Universitätsbibliothek |
Tag: | anisotropy; digital rock physics; digital twin; high-resolution x-ray computed tomography; multi-phase segmentation; pore network; tight sandstone |
Volume: | 9 |
Issue: | Article 673753 |
First Page: | 673753-1 |
Last Page: | 673753-19 |
Institutes/Facilities: | Institut für Geologie, Mineralogie und Geophysik |
open_access (DINI-Set): | open_access |
faculties: | Fakultät für Geowissenschaften |
Licence (English): | Creative Commons - CC BY 4.0 - Attribution 4.0 International |