CONTRIBUTIONS
Field and Laboratory Coupled Fracture Deformation-Pore Pressure-Permeability Experiments That Provide Insight for Depressurization of Fractured Rock Slopes.Ref: Gale, John Edward; Seok, Eunjeong (2013): Field and laboratory coupled fracture deformation-pore pressure-permeability experiments that provide insight for depressurization of fractured rock slopes. - In: Brown, A.; Figueroa, L. & Wolkersdorfer, Ch.: Reliable Mine Water Technology (Vol I). - p. 139 - 145; Denver, Colorado, USA (Publication Printers). |
|
Comparison of Simulated Flow in a Discrete Fracture Laboratory Sample Based on Measured Average and Spatially Varying Hydraulic Conductivity.Ref: Seok, Eunjeong; Gale, John E. (2014): Comparison of Simulated Flow in a Discrete Fracture Laboratory Sample Based on Measured Average and Spatially Varing Hydraulic Conductivity - In: Dynamics of Fluids and Transport in Complex Fractured-Porous Systems; AGU Special Publication.©AGU |
|
Preface: Dynamics of Fluids and Transport in Complex Fractured-Porous Systems.Ref: Faybishenko, B., S. Benson, J. Gale (2014): Preface - In: Dynamics of Fluids and Transport in Complex Fractured-Porous Systems; AGU Special Publication.©AGU |
|
Chapter 1: Complex Systems Approach to Describe Flow and Transport in Fractured-Porous Media: Introduction.Ref: Faybishenko, B., S. Benson, J. Gale (2014): Chapter 1 - In: Dynamics of Fluids and Transport in Complex Fractured-Porous Systems; AGU Special Publication.©AGU |