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Spatial Characterization of Channeling in Sheared Rough‐Walled Fractures in the Transition to Nonlinear Fluid Flow

Egert, Robert ORCID iD icon 1; Nitschke, Fabian 1; Gholami Korzani, Maziar; Kohl, Thomas 1
1 Institut für Angewandte Geowissenschaften (AGW), Karlsruher Institut für Technologie (KIT)

Abstract:

Accurate quantification of spatially resolved fluid flow within fractures is crucial for successful reservoir development, such as Enhanced Geothermal Systems. This study presents an innovative workflow designed to model and characterize preferential flow paths (channels) within rough-walled shear fractures. A set of 30 rough-walled self-affine fractures, all possessing identical roughness characteristics, is stochastically generated. By solving the nonlinear Navier-Stokes equations in 420 individual realizations, the transition from linear to nonlinear flow regimes and the two extreme flow directions perpendicular and parallel to the shearing are numerically captured. A distinguishing feature of this approach is its comprehensive statistical analysis, which encompasses both the geometric and transport properties of flow paths in the non-simplified three-dimensional fractured void space under typical geothermal flow conditions. In a perpendicular orientation of flow and shearing, fluid flow exhibits pronounced localization, with more than one-third of the volumetric flow concentrated within 15% of the fracture volume. In contrast, parallel to the shearing, a complex pattern of individual tortuous channels emerges, with flow occurring in 22% of the void space. ... mehr


Verlagsausgabe §
DOI: 10.5445/IR/1000163691
Veröffentlicht am 02.11.2023
Cover der Publikation
Zugehörige Institution(en) am KIT Institut für Angewandte Geowissenschaften (AGW)
Publikationstyp Zeitschriftenaufsatz
Publikationsmonat/-jahr 10.2023
Sprache Englisch
Identifikator ISSN: 0043-1397, 1944-7973
KITopen-ID: 1000163691
HGF-Programm 38.04.04 (POF IV, LK 01) Geoenergy
Erschienen in Water Resources Research
Verlag John Wiley and Sons
Band 59
Heft 10
Seiten Art.: e2022WR034362
Vorab online veröffentlicht am 12.10.2023
Schlagwörter fracture flow, Navier-Stokes, channeling, numerical modeling, geothermal
Nachgewiesen in Dimensions
Web of Science
Scopus
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