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Effect of anisotropic confining stresses on hydraulically-induced fracture propagation from perforated cased-hole in unconsolidated sands
T. Ito
, K. Yamamoto, S. Nagakubo
Innovative Energy Research Center
Research output
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Contribution to conference
›
Paper
›
peer-review
2
Citations (Scopus)
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Dive into the research topics of 'Effect of anisotropic confining stresses on hydraulically-induced fracture propagation from perforated cased-hole in unconsolidated sands'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Fracture
100%
Slit
42%
Specimen
42%
Sand
42%
Borehole
28%
Bit
28%
Hydraulic Fracturing
14%
Fracture Propagation
14%
Sliding
14%
Laboratory Test
14%
Azimuth
14%
Investigation
14%
Length
14%
Plastic
14%
Volume
14%
Variation
14%
Permeability
14%
Oil
14%
Engineering
Fracture
100%
Casing Pipe
57%
Anisotropic
28%
Fracturing Fluid
28%
Fracture Propagation
14%
Hydraulic Fracturing
14%
Compressive Stress
14%
Stress State
14%
Azimuthal
14%
Pressurization
14%
Maximum Horizontal Stress
14%
Confining Stress
14%
Cased Hole
14%
Mechanisms
14%
Oil
14%