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Porous rock fracture mechanics :

[ ] Additional authors: Shojaei, Amir, -- editor. | Shao, Jianfu, -- editor. Series: Woodhead Publishing series in civil and structural engineering Physical details: 1 online resource. ISBN:9780081007822 (electronic bk.); 0081007825 (electronic bk.); 9780081007815 (print); 0081007817. Subject(s): Rock mechanics. | Fracture mechanics. | Porous materials. | TECHNOLOGY & ENGINEERING / Civil / General | Fracture mechanics. | Porous materials. | Rock mechanics. | Electronic books. Item type: List(s) this item appears in: Drilling Engineering | Department of Gas and petroleum Engineering
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Front Cover; Porous Rock Fracture Mechanics; Copyright Page; Dedication; Contents; List of contributors; Preface; Introduction; Rocks fracture mechanics; Scale effects on fracture behavior; Effect of tensile and compressive stress fields on rocks' fracture mechanics; Rock fracture mechanisms and fluid effects; Environmental effects; Time effect on rocks' failure behavior; I. Introduction; 1 Application of rock failure simulation in design optimization of the hydraulic fracturing; 1.1 Introduction; 1.2 Reservoir stimulation by hydraulic fracturing of horizontal wells

1.3 Hydraulic fracturing conceptual models1.3.1 Rock failure and the stimulated volume; 1.4 Mechanical interactions of multiple hydraulic fractures; 1.4.1 Some insights on hydraulic fracture spacing optimization using numerical simulations; 1.4.2 The role of rock fabric and structure; Role of rock anisotropy; Influence of natural fractures on hydraulic fractures; 1.4.3 The importance of 3D effects; 1.5 Conclusions; References; II. Coupled Fluid Structural Deformation and Fracture Mechanisms in Porous

2 Anisotropic poroplasticity in saturated porous media, effect of confining pressure, and elevated temperature2.1 Introduction; 2.2 General framework of poroplastic modeling; 2.2.1 Effective stress concept in poroplasticity; 2.3 Experimental investigation on a typical porous rock; 2.4 Anisotropic plastic behavior of rocks; 2.5 Effects of temperature on anisotropic rocks; 2.6 Conclusions; References; 3 Coupling in hydraulic fracturing simulation; 3.1 Introduction: fluid-driven fracture propagation in rocks; 3.2 Coupling in reservoir geomechanics; 3.3 Fracture-matrix fluid exchange ("leakoff")

3.4 Coupling fluid and solid3.5 Coupling proppant transport and placement; 3.6 Thermal coupling; 3.7 Coupling in acid fracturing; 3.8 Conclusion; References; 4 Stress-induced permeability evolutions and erosion damage of porous rocks; 4.1 Introduction; 4.2 Laboratory tests; 4.2.1 Steady and transient permeability tests of sandstone under triaxial compression; Steady permeability tests; Transient pulse tests; 4.2.2 Hydro-mechanical-chemical coupling behavior of sandstone; Creep tests with injection of CO2 alone and CO2-brine solution

Creep tests with injection of CO2 aloneCreep tests with injection of CO2-brine; Indentation tests on samples after CO2-brine-rock reaction; 4.3 Numerical simulations of hydro-mechanical-chemical coupling behavior; 4.3.1 General framework; 4.3.2 Special model for sandstone; Mechanical modeling; Mass-transfer modeling; Porosity evolution and chemical damage; Poromechanical modeling; 4.3.3 Numerical application; Simulation of chemical dissolution process; Simulation of mechanical behavior

Includes index.

Online resource; title from PDF title page (EBSCO, viewed May 31, 2017).

Elsevier ScienceDirect FC Complete Collection Books 2017

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