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200 00$aDynamics of fluids and transport in complex fractured-porous systems /$fBoris Faybishenko, Sally M. Benson, John E. Gale, editors ; contributors, Jacob Bensabat [and thirty-nine others]
210  1$aWashington, District of Columbia ;$aHoboken, New Jersey :$cAGU, American Geophysical Union :$cWiley,$d2015.
210  4$dİ2015
215   $a1 online resource (265 p.)
225 1 $aGeophysical Monograph ;$v210
300   $aDescription based upon print version of record.
311   $a1-118-87728-4 
311   $a1-118-87720-9 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aTitle Page; Copyright Page; Contents; Contributors; Preface; Introduction: Paul Witherspoon and the Birth of Contemporary Fractured Rock Hydrogeology; Early Influences; Underground Gas Storage; Aquitards; Geothermal Energy; Nuclear Waste Isolation; Fractured Rock Hydrogeology; Paul Witherspoon's Legacy; References; Chapter 1 A Complex Systems Approach to Describing Flow and Transport in Fractured-Porous Media; 1.1. Introduction; 1.2. The Field of Complex Systems; 1.3. Fractured Rock as a Complex System; 1.4. Models and Approaches: Model Simplifications
327   $a1.5. Conclusion: Can Complexity Sciences Benefit the Field of Flow and Transport in Fractured-Porous Media?Acknowledgment; References; PART I Methods of Field Measurements and Experiments; Chapter 2 Fracture Flow and Underground Research Laboratories for Nuclear Waste Disposal and Physics Experiments; 2.1. Introduction; 2.2. Cubic Law for Fracture Flow and Literature on Fractured Rock Mass Characterization; 2.3. Underground Research Laboratory, Facility, Borehole Studies, and the ISRM Networking Commission; 2.4. Concluding Remarks; Acknowledgments; References
327   $aChapter 3 Permeability Structure of a Strike-Slip Fault 3.1. Introduction; 3.2. Hydraulic Tests; 3.3. Drawdown Analysis; 3.3. Conclusions; Acknowledgments; Appendix; References; Chapter 4 Feasibility of Long-Term Passive Monitoring of Deep Hydrogeology with Flowing Fluid Electric Conductivity Logging Method; 4.1. Introduction; 4.2. Motivation and Problem Definition; 4.3. Results and Discussion; 4.4. Concluding Remarks; Acknowledgments; References; PART II Collective Behavior and Emergent Properties of Complex Fractured Rock Systems; Chapter 5 Particle Swarms in Fractures; 5.1. Introduction
327   $a5.2. Experimental Methods 5.3. Analysis Techniques; 5.4. Results and Discussion; 5.5. Conclusions; Acknowledgments; References; Chapter 6 The Effect of Chemical Osmosis on Oil and Gas Production from Fractured Shale Formations; 6.1. Introduction; 6.2. Clay as Semipermeable Membrane; 6.3. Oil Recovery Experiments in Bakken; 6.4. Mathematical Model; 6.5. The Effect of Osmosis Pressure on Oil and Gas Production; 6.6. Conclusions; Acknowledgments; Nomenclature (A Dash Denotes No Unit of Measure); References
327   $aChapter 7 An Experimental Investigation of Stress-Dependent Permeability and Permeability Hysteresis Behavior in Rock Fractures 7.1. Introduction; 7.2. Materials and Equipment; 7.3. Experimental Results; 7.4. Discussion; 7.5. Conclusion; Acknowledgments; References; Chapter 8 Permeability of Partially Cemented Fractures; 8.1. Introduction; 8.2. Methods; 8.3. Results; 8.4. Discussion; 8.5. Conclusion; Acknowledgments; References; Chapter 9 An Emergent Conductivity Relationship for Water Flow Based on Minimized Energy Dissipation: From Landscapes to Unsaturated Soils; 9.1. Introduction
327   $a9.2. Steady-State Optimal Landscape
330   $aDespite of many years of studies, predicting fluid flow, heat, and chemical transport in fractured-porous media remains a challenge for scientists and engineers worldwide. This monograph is the third in a series on the dynamics of fluids and transport in fractured rock published by the American Geophysical Union (Geophysical Monograph Series, Vol. 162, 2005; and Geophysical Monograph, No. 122, 2000). This monograph is dedicated to the late Dr. Paul Witherspoon for his seminal influence on the development of ideas and methodologies and the birth of contemporary fractured rock hydrogeology, in
410  0$aGeophysical monograph ;$v210.
606   $aPorous materials$xFluid dynamics
606   $aPorous materials$xMathematical models
615  0$aPorous materials$xFluid dynamics.
615  0$aPorous materials$xMathematical models.
676   $a620.116
702   $aFaybishenko$b Boris
702   $aBenson$b Sally M.
702   $aGale$b  John E.
702   $aBensabat$b Jacob
712 12$aAGU Fall Meeting$f(2012 :$eSan Francisco, Calif.),
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