Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone: SEM images
M. Balcewicz, M. Ruf, H. Steeb, and E. Saenger. Dataset, (2021)Related to: Balcewicz, M., Siegert, M., Gurris, M., Ruf, M., Krach, D., Steeb, H., & Saenger, E.H. (2021). Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone. Frontiers in Earth Science (under review).
DOI: 10.18419/darus-1812
Abstract
The Ruhr sandstone is assigned to the Upper Carboniferous and is part of the Ruhr cyclothem located in North Rhine-Westphalia, which consists of clays, siltstones, mudstones, sandstones, and interbedded coal seams. The sediment was chemically and mechanically compacted, folded, and faulted during the Hercynian orogeny. The studied microstructure of the Ruhr sandstone indicates depths of up to 6000 m and reconstructed, possible temperatures of over 120 ºC. This results in a complex mineralogical structure compared to other sandstones such as the Berea sandstone or the Fontainbleau sandstone. As part of the Balcewicz et al. (2021) publication, we made a first attempt to study the Ruhr Sandstone using Digital Rock Physics (DRP).This dataset contains the underlying Scanning Electron Microscope (SEM) images used in Balcewicz et al. (2021). The images were obtained on two thin sections of the Ruhr sandstone (RSST_X_02_25 & RSST_X_02_75).
Balcewicz, Martin/Bochum University of Applied Sciences, Bau- und Umweltingenieurwesen, Ruf, Matthias/University of Stuttgart, Institute of Applied Mechanics (CE), Steeb, Holger/University of Stuttgart, Institute of Applied Mechanics (CE) & SimTech, Saenger, Erik H./Bochum University of Applied Sciences, Bau- und Umweltingenieurwesen; Fraunhofer IEG, Institution for Energy Infrastructures and Geothermal Systems; Ruhr-University Bochum, Institute of Geology, Mineralogy and Geophysics
orcid-numbers
Balcewicz, Martin/0000-0001-9953-1431, Ruf, Matthias/0000-0003-0299-5921, Steeb, Holger/0000-0001-7602-4920, Saenger, Erik H./0000-0002-2057-4728
Related to: Balcewicz, M., Siegert, M., Gurris, M., Ruf, M., Krach, D., Steeb, H., & Saenger, E.H. (2021). Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone. Frontiers in Earth Science (under review)
%0 Generic
%1 balcewicz2021digital
%A Balcewicz, Martin
%A Ruf, Matthias
%A Steeb, Holger
%A Saenger, Erik H.
%D 2021
%K darus mult ubs_10002 ubs_10021 ubs_20002 ubs_20019 ubs_30024 ubs_30165 ubs_40399 unibibliografie
%R 10.18419/darus-1812
%T Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone: SEM images
%X The Ruhr sandstone is assigned to the Upper Carboniferous and is part of the Ruhr cyclothem located in North Rhine-Westphalia, which consists of clays, siltstones, mudstones, sandstones, and interbedded coal seams. The sediment was chemically and mechanically compacted, folded, and faulted during the Hercynian orogeny. The studied microstructure of the Ruhr sandstone indicates depths of up to 6000 m and reconstructed, possible temperatures of over 120 ºC. This results in a complex mineralogical structure compared to other sandstones such as the Berea sandstone or the Fontainbleau sandstone. As part of the Balcewicz et al. (2021) publication, we made a first attempt to study the Ruhr Sandstone using Digital Rock Physics (DRP).This dataset contains the underlying Scanning Electron Microscope (SEM) images used in Balcewicz et al. (2021). The images were obtained on two thin sections of the Ruhr sandstone (RSST_X_02_25 & RSST_X_02_75).
@misc{balcewicz2021digital,
abstract = {The Ruhr sandstone is assigned to the Upper Carboniferous and is part of the Ruhr cyclothem located in North Rhine-Westphalia, which consists of clays, siltstones, mudstones, sandstones, and interbedded coal seams. The sediment was chemically and mechanically compacted, folded, and faulted during the Hercynian orogeny. The studied microstructure of the Ruhr sandstone indicates depths of up to 6000 m and reconstructed, possible temperatures of over 120 ºC. This results in a complex mineralogical structure compared to other sandstones such as the Berea sandstone or the Fontainbleau sandstone. As part of the Balcewicz et al. (2021) publication, we made a first attempt to study the Ruhr Sandstone using Digital Rock Physics (DRP).This dataset contains the underlying Scanning Electron Microscope (SEM) images used in Balcewicz et al. (2021). The images were obtained on two thin sections of the Ruhr sandstone (RSST_X_02_25 & RSST_X_02_75). },
added-at = {2022-06-09T19:15:45.000+0200},
affiliation = {Balcewicz, Martin/Bochum University of Applied Sciences, Bau- und Umweltingenieurwesen, Ruf, Matthias/University of Stuttgart, Institute of Applied Mechanics (CE), Steeb, Holger/University of Stuttgart, Institute of Applied Mechanics (CE) & SimTech, Saenger, Erik H./Bochum University of Applied Sciences, Bau- und Umweltingenieurwesen; Fraunhofer IEG, Institution for Energy Infrastructures and Geothermal Systems; Ruhr-University Bochum, Institute of Geology, Mineralogy and Geophysics},
author = {Balcewicz, Martin and Ruf, Matthias and Steeb, Holger and Saenger, Erik H.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2131af2b1849f2422d56d142bbc70ff00/unibiblio},
doi = {10.18419/darus-1812},
howpublished = {Dataset},
interhash = {abdcb29849624f7267097d8344543216},
intrahash = {131af2b1849f2422d56d142bbc70ff00},
keywords = {darus mult ubs_10002 ubs_10021 ubs_20002 ubs_20019 ubs_30024 ubs_30165 ubs_40399 unibibliografie},
note = {Related to: Balcewicz, M., Siegert, M., Gurris, M., Ruf, M., Krach, D., Steeb, H., & Saenger, E.H. (2021). Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone. Frontiers in Earth Science (under review)},
orcid-numbers = {Balcewicz, Martin/0000-0001-9953-1431, Ruf, Matthias/0000-0003-0299-5921, Steeb, Holger/0000-0001-7602-4920, Saenger, Erik H./0000-0002-2057-4728},
timestamp = {2023-11-03T12:07:53.000+0100},
title = {Digital rock physics: A geological driven workflow for the segmentation of anisotropic Ruhr sandstone: SEM images},
year = 2021
}