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Petrophysical measurements of sandstone samples extracted from an outcrop (2019)

Haruzi, Peleg ; Katsman, Regina ; Halisch, Matthias ; [et al.]

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In: Supplement to: Haruzi, Peleg; Katsman, Regina; Halisch, Matthias; Waldmann, Nicolas D; Spiro, Baruch (2021): Benchmark study using a multi-scale, multi-methodological approach for the petrophysical characterization of reservoir sandstones. Solid Earth, 12(3), 665-689, https://doi.org/10.5194/se-12-665-2021

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Publication Date: 2024-01-03

Description: Petrophysical measurements of samples extracted from 3 consecutive sandstone layers from an outcrop, in lower Cretaceous sandstone from North of Israel. The data includes: Grain size distribution, mercury intrusion porosimetry, XRD, porosity and permeability, micro-CT images. Further description in read_me file.

Keywords: File format; File name; File size; micro-CT; MULT; Multiple investigations; North_Israel; permeability; Petrophysics; pore-scale modelling; Uniform resource locator/link to file

Type: Dataset

Format: text/tab-separated-values, 48 data points

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Development of a numerical workflow based on μ-CT imaging for the determination of capillary pressure–saturation-specific interfacial area relationship in 2-phase flow pore-scale porous-media systems: a case study on Heletz sandstone (2018)

Peche, Aaron ; Halisch, Matthias ; Bogdan Tatomir, Alexandru ; [et al.]

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Publication Date: 2021-03-29

Description: In this case study, we present the implementation of a finite element method (FEM)-based numerical pore-scale model that is able to track and quantify the propagating fluid–fluid interfacial area on highly complex micro-computed tomography (μ-CT)-obtained geometries. Special focus is drawn to the relationship between reservoir-specific capillary pressure (pc), wetting phase saturation (Sw) and interfacial area (awn). The basis of this approach is high-resolution μ-CT images representing the geometrical characteristics of a georeservoir sample. The successfully validated 2-phase flow model is based on the Navier–Stokes equations, including the surface tension force, in order to consider capillary effects for the computation of flow and the phase-field method for the emulation of a sharp fluid–fluid interface. In combination with specialized software packages, a complex high-resolution modelling domain can be obtained. A numerical workflow based on representative elementary volume (REV)-scale pore-size distributions is introduced. This workflow aims at the successive modification of model and model set-up for simulating, such as a type of 2-phase problem on asymmetric μ-CT-based model domains. The geometrical complexity is gradually increased, starting from idealized pore geometries until complex μ-CT-based pore network domains, whereas all domains represent geostatistics of the REV-scale core sample pore-size distribution. Finally, the model can be applied to a complex μ-CT-based model domain and the pc–Sw–awn relationship can be computed.

Keywords: μ-CT imaging; Heletz sandstone ; 551

Language: English

Type: article , publishedVersion

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Porosity and distribution of water in perlite from the island of Milos, Greece. (2018)

Kaufhold, Stephan ; Reese, Anke ; Schwiebacher, Werner ; [et al.]

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Publication Date: 2021-03-29

Description: A perlite sample representative of an operating mine in Milos was investigated with respect to the type and spatial distribution of water. A set of different methods was used which finally provided a consistent view on the water at least in this perlite. Infrared spectroscopy showed the presence of different water species (molecular water and hydroxyl groups / strongly bound water). The presence of more than 0.5 mass% smectite, however, could be excluded considering the cation exchange capacity results. The dehydration measured by thermal analysis occurred over a wide range of temperatures hence confirming the infrared spectroscopical results. Both methods point to the existence of a continuous spectrum of water binding energies. The spatial distribution of water and/or pores was investigated using different methods (CT: computer tomography, FIB: scanning electron microscopy including focused ion beam technology, IRM: infrared microscopy). Computer tomography (CT) showed large macropores (20 - 100 μm) and additionally revealed a mottled microstructure of the silicate matrix with low density areas up to a few μm in diameter. Scanning electron microscopy (FIB) confirmed the presence of μm sized pores and IRM showed the filling of these pores with water. In summary, two types of pores were found. Airfilled 20 - 100 μm pores and μm-sized pores disseminated in the glass matrix containing at least some water. Porosity measurements indicate a total porosity of 26 Vol%, 11 Vol% corresponding to the μm-sized pores. It remains unsolved wether the water in the μm-sized pores entered after or throughout perlite formation. However, the pores are sealed and no indications of cracks were found which indicated a primary source of the water, i.e. water was probably entrapped by quenching of the lava. The water in these pores may be the main reason for the thermal expandability which results in the extraordinarily porous expanded perlite building materials.

Keywords: Perlite; Porosity; Water distribution; Volcanic glass; FIB; CT-analysis ; 551

Language: English , English

Type: article , publishedVersion

Format: 10

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