Physics – Geophysics
Scientific paper
2011-01-12
Journal of Geophysical Research 116 (2011) B12201
Physics
Geophysics
28 pages, 7 figures
Scientific paper
10.1029/ 2011JB008565
To better understand the mechanisms of fracture pattern development and fluid escape in low permeability rocks, we performed time-resolved in situ X-ray tomography imaging to investigate the processes that occur during the slow heating (from 60\degree; to 400\degree;C) of organic-rich Green River shale. At about 350\degree;C cracks nucleated in the sample, and as the temperature continued to increase, these cracks propagated parallel to shale bedding and coalesced, thus cutting across the sample. Thermogravimetry and gas chromatography revealed that the fracturing occurring at ~350\degree;C was associated with significant mass loss and release of light hydrocarbons generated by the decomposition of immature organic matter. Kerogen decomposition is thought to cause an internal pressure build up sufficient to form cracks in the shale, thus providing pathways for the outgoing hydrocarbons. We show that a 2D numerical model based on this idea qualitatively reproduces the experimentally observed dynamics of crack nucleation, growth and coalescence, as well as the irregular outlines of the cracks. Our results provide a new description of fracture pattern formation in low permeability shales.
Dysthe Dag Kristian
Jamtveit Bjorn
Kobchenko Maya
Malthe-Sorenssen Anders
Mazzini Adriano
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