Coupled processes in subsurface deformation, flow, and transport /

"Coupled Processes in Subsurface Deformation, Flow, and Transport presents a rational and unified treatment of coupled processes, with emphasis on the coupling and feedbacks present where solid deformation, fluid flow, and solute transport combine, and in the representation of heterogeneous med...

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Bibliographic Details
Main Author: Bai, Miao, 1952-
Other Authors: Elsworth, Derek
Format: eBook
Language:English
Published: Reston, VA : American Society of Civil Engineers, 2000.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • State of the Art
  • Individual Process
  • Multiple Processes
  • Modeling Methodology
  • Conceptual Preliminaries
  • Concepts and Assumptions
  • Fundamental Formulations
  • Definition of Heterogeneity and Anisotropy
  • Definition of Coupled Process
  • Notation Preliminaries
  • Tensor
  • Sign Convention
  • Deformation
  • Mathematical Formulation
  • Homogeneous Media
  • Heterogeneous Media
  • Parametric Study
  • Effective Stress Law
  • Parametric Relations in Coupled Processes
  • Anisotropic Properties
  • Flow
  • Mathematical Formulation
  • Homogeneous Media
  • Heterogeneous Media
  • Parametric Study
  • Permeability
  • Compressibility
  • Anisotropic Effect
  • Transport
  • Mathematical Formulation
  • Homogenous Media
  • Heterogeneous Media
  • Comparative Analysis
  • Stochastic Processes
  • Parametric Study
  • Parameters for Homogeneous Media
  • Sensitivity Analysis for Heterogeneous Media
  • Convection-Dominated Transport
  • Analytical Solution
  • Laplace Transform
  • Flow
  • Transport
  • Fourier Transform
  • Flow
  • Nonisothermal Flow and Deformation
  • Hankel Transform
  • Flow
  • Flow and Deformation
  • Differential Operator Method
  • Flow
  • Transport
  • Numerical Solution
  • Finite Element Preliminaries
  • Numerical Integration
  • Shape Functions
  • Global and Local Coordinate Mapping
  • Construction of a System of Equations
  • Finite Element Formulation
  • Deformation
  • Flow
  • Coupled Deformation and Flow
  • Finite Element Model
  • Cylindrical Model
  • Generalized Plane Strain
  • Dual-Porosity Media.