03683nam 22005175 450 991016394290332120230706180042.010.1515/9781400885688(CKB)3710000001008848(MiAaPQ)EBC4855750(DE-B1597)480407(OCoLC)979595922(DE-B1597)9781400885688(EXLCZ)99371000000100884820190708d2000 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierTheory of linear poroelasticity with applications to geomechanics and hydrogeology /Herbert F. WangPrinceton, NJ :Princeton University Press,[2000]1 online resource illustrationsPrinceton series in geophysics0-691-03746-9 1-4008-8568-X Includes bibliographical references and indexes.Frontmatter --Contents --Preface --1. Introduction --2. Linear Constitutive Equations --3. Poroelastic Constants --4. Governing Equations --5. Unbounded Problem Domains --6. Uniaxial Strain --7. Plane Strain and Plane Stress in Rectangular Coordinates --8. Plane Strain in Polar Coordinates --9. Axisymmetry --10. Numerical Methods --Appendix A. Integral Transforms --Appendix B. Relations Among Poroelastic Constants --Appendix C. Representative Poroelastic Constants --Symbols --References --Uncited References --Author Index --Subject IndexThe theory of linear poroelasticity describes the interaction between mechanical effects and adding or removing fluid from rock. It is critical to the study of such geological phenomena as earthquakes and landslides and is important for numerous engineering projects, including dams, groundwater withdrawal, and petroleum extraction. Now an advanced text synthesizes in one place, with one notation, numerous classical solutions and applications of this highly useful theory. The introductory chapter recounts parallel developments in geomechanics, hydrogeology, and reservoir engineering that are unified by the tenets of poroelasticity. Next, the theory's constitutive and governing equations and their associated material parameters are described. These equations are then specialized for different simplifying geometries: unbounded problem domains, uniaxial strain, plane strain, radial symmetry, and axisymmetry. Example problems from geomechanics, hydrogeology, and petroleum engineering are incorporated throughout to illustrate poroelastic behavior and solution methods for a wide variety of real-world scenarios. The final chapter provides outlines for finite-element and boundary-element formulations of the field's governing equations. Whether read as a course of study or consulted as a reference by researchers and professionals, this volume's user-friendly presentation makes accessible one of geophysics' most important subjects and will do much to reduce poroelasticity's reputation as difficult to master.Princeton series in geophysics.Rock mechanicsRocksPermeabilityElasticityFluid dynamicsRock mechanics.RocksPermeability.Elasticity.Fluid dynamics.624.2Wang Herbert591798DE-B1597DE-B1597BOOK9910163942903321Theory of linear poroelasticity with applications to geomechanics and hydrogeology1002268UNINA