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Simulation of non-planar three-dimensional hydraulic fracture propagation
P. Gupta,
C. A. Duarte
Civil and Environmental Engineering
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Dive into the research topics of 'Simulation of non-planar three-dimensional hydraulic fracture propagation'. Together they form a unique fingerprint.
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Keyphrases
Three-dimensional (3D)
100%
Non-planar
100%
Crack Surface
100%
Crack Geometry
100%
Hydraulic Fracturing
100%
Hydraulic Fracture
100%
Non-planar Fractures
100%
Hydraulic Fracture Propagation
100%
Computational Methods
50%
Finite Element
50%
Fracture Surface
50%
Stress Intensity Factor
50%
Asymptotic Expansion
50%
Computational Efficiency
50%
Computational Accuracy
50%
Single Crack
50%
Choice Method
50%
Simulation Methodology
50%
3D Model
50%
Planar Crack
50%
Solution Strategies
50%
Enrichment Functions
50%
Generalized FEM
50%
Well Efficiency
50%
Naturally Fractured Reservoirs
50%
Maximum Horizontal Stress
50%
Contour Integral Method
50%
Non-planar Fracture Propagation
50%
Stimulation Site
50%
Wellbore
50%
Reservoir Permeability
50%
3D Crack
50%
Fully-automatic
50%
3D Fracture
50%
Non-planar Cracks
50%
Planar Fractures
50%
Shale Gas
50%
Fracture Front
50%
Engineering
Hydraulic Fracturing
100%
Fracture Propagation
100%
Crack Surface
40%
Crack Geometry
40%
Fracture Surface
20%
Stress-Intensity Factor
20%
Asymptotic Expansion
20%
Crack Face
20%
Integral Method
20%
Wellbore
20%
Reservoir Permeability
20%
Naturally Fractured Reservoir
20%
Shale Gas
20%
Maximum Horizontal Stress
20%
Finite Element Analysis
20%
Discretization
20%
Boundary Condition
20%