Open AccessPredicting the occurrence of mixed mode failure associated with hydraulic fracturing, part 2 water saturated tests
Author(s) -
Stephen J. Bauer,
Scott Broome,
Charles Choens,
Perry Barrow
Publication year - 2015
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1215562
Subject(s) - lithology , hydraulic fracturing , geology , geotechnical engineering , ultimate tensile strength , pore water pressure , sedimentary rock , failure mode and effects analysis , petroleum engineering , petrology , materials science , composite material , geochemistry
Seven water-saturated triaxial extension experiments were conducted on four sedimentary rocks. This experimental condition was hypothesized more representative of that existing for downhole hydrofracture and thus it may improve our understanding of the phenomena. In all tests the pore pressure was 10 MPa and confirming pressure was adjusted to achieve tensile and transitional failure mode conditions. Using previous work in this LDRD for comparison, the law of effective stress is demonstrated in extension using this sample geometry. In three of the four lithologies, no apparent chemo-mechanical effect of water is apparent, and in the fourth lithology test results indicate some chemo-mechanical effect of water.
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