Fractures are the most common result of rock brittle failure in the Earth’s crust. Their presence, distribution, orientation, and interconnection are some of the main parameters that control rock’s mechanical characteristics and fluid flow. The arrangement of fractures on outcrop analogues is critical in predicting rock mass integrity and subsurface fluid migration and storage. Here, we present the application of Fracture Analyser, a Python tool, in analysing two field case studies. We performed the analysis remotely from manually interpreted images of a fractured vertical wall of siliciclastic turbidites and a horizontal pavement of karstified limestone. To test our tool, we analysed the two outcrops at different scales: the first case, i.e., the siliciclastic turbidites vertical wall, from images at a ground resolution of about 0.0005 m/pixel; the second case, the karstified limestone pavement, with a ground resolution of about 0.04 m/pixel. To demonstrate the efficiency of Fracture Analyser in objectively and repeatedly quantifying fracture attributes and the fractured state of an outcrop from a given dataset, after the digitalisation of fractures we quantify fracture pattern attributes such as number, length, spatial orientation, spatial position, angle between scanline and fractures, apparent spacing, fracture density (P20), and fracture intensity (P21). The examples presented in this study demonstrate the efficacy of Fracture Analyser in quantifying fracture pattern attributes.

Fracture analyser: a Python toolbox for the 2D analysis of fracture patterns / Borghini, L.; Striglio, G.; Bacchiani, G.; Bruna, V. L.; Balsamo, F.; Bonini, L.; Bezerra, F. H. R.. - In: ITALIAN JOURNAL OF GEOSCIENCES. - ISSN 2038-1719. - 143:2(2024), pp. 314-328. [10.3301/IJG.2024.16]

Fracture analyser: a Python toolbox for the 2D analysis of fracture patterns

Borghini L.
Writing – Original Draft Preparation
;
Striglio G.
Formal Analysis
;
Bacchiani G.
Software
;
Balsamo F.
Writing – Review & Editing
;
2024-01-01

Abstract

Fractures are the most common result of rock brittle failure in the Earth’s crust. Their presence, distribution, orientation, and interconnection are some of the main parameters that control rock’s mechanical characteristics and fluid flow. The arrangement of fractures on outcrop analogues is critical in predicting rock mass integrity and subsurface fluid migration and storage. Here, we present the application of Fracture Analyser, a Python tool, in analysing two field case studies. We performed the analysis remotely from manually interpreted images of a fractured vertical wall of siliciclastic turbidites and a horizontal pavement of karstified limestone. To test our tool, we analysed the two outcrops at different scales: the first case, i.e., the siliciclastic turbidites vertical wall, from images at a ground resolution of about 0.0005 m/pixel; the second case, the karstified limestone pavement, with a ground resolution of about 0.04 m/pixel. To demonstrate the efficiency of Fracture Analyser in objectively and repeatedly quantifying fracture attributes and the fractured state of an outcrop from a given dataset, after the digitalisation of fractures we quantify fracture pattern attributes such as number, length, spatial orientation, spatial position, angle between scanline and fractures, apparent spacing, fracture density (P20), and fracture intensity (P21). The examples presented in this study demonstrate the efficacy of Fracture Analyser in quantifying fracture pattern attributes.
2024
Fracture analyser: a Python toolbox for the 2D analysis of fracture patterns / Borghini, L.; Striglio, G.; Bacchiani, G.; Bruna, V. L.; Balsamo, F.; Bonini, L.; Bezerra, F. H. R.. - In: ITALIAN JOURNAL OF GEOSCIENCES. - ISSN 2038-1719. - 143:2(2024), pp. 314-328. [10.3301/IJG.2024.16]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2995733
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