2021
DOI: 10.5194/se-12-2159-2021
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Investigating spatial heterogeneity within fracture networks using hierarchical clustering and graph distance metrics

Abstract: Abstract. Rock fractures organize as networks, exhibiting natural variation in their spatial arrangements. Therefore, identifying, quantifying, and comparing variations in spatial arrangements within network geometries are of interest when explicit fracture representations or discrete fracture network models are chosen to capture the influence of fractures on bulk rock behaviour. Treating fracture networks as spatial graphs, we introduce a novel approach to quantify spatial variation. The method combines graph… Show more

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Cited by 7 publications
(2 citation statements)
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“…For opening-mode fractures, size, spatial arrangement, and connectivity are essential elements defining fracture patterns. For fluid flow and rock strength, the specific pattern that is present -the sizes and arraignments of fractures-can have a profound effect of rock behavior (e.g., Olson et al 2007;Prabhakaran et al 2021). A review of sandstone opening-mode fracture size, spatial arrangement, and connectivity is beyond the scope of this note.…”
Section: Size Spatial Arrangement and Connectivitymentioning
confidence: 99%
“…For opening-mode fractures, size, spatial arrangement, and connectivity are essential elements defining fracture patterns. For fluid flow and rock strength, the specific pattern that is present -the sizes and arraignments of fractures-can have a profound effect of rock behavior (e.g., Olson et al 2007;Prabhakaran et al 2021). A review of sandstone opening-mode fracture size, spatial arrangement, and connectivity is beyond the scope of this note.…”
Section: Size Spatial Arrangement and Connectivitymentioning
confidence: 99%
“…Interpreting and utilizing analogues is therefore vital for understanding the fractured networks at depth. For reservoir analogues, scan lines (1D) and fractured pavements (2D) are the most used data techniques and, whilst scan lines can provide statistical information on fracture arrangement, they are not useful for developing further models (Priest and Hudson, 1976;Dershowitz et al, 1992;Prabhakaran et al 2021). Two-dimensional pavement and fracture trace analysis allow for the interpretation and modelling of geometric and topological data (fracture orientation, length, intersections, aperture) from the fracture networks using advanced techniques of data acquisition, e.g.…”
Section: A Two-dimensional Fracture Modelling From Surface Analoguesmentioning
confidence: 99%