Description

Book Synopsis

This book aims to deliver significant scientific progress on the problem of the erosion of geomaterials, focusing on the mechanical/physical aspect. The chapters oscillate between a phenomenological outlook that is well grounded in experiments, and an approach that can offer a modeling framework.
The basic mechanisms of internal and surface erosion are tackled one-by-one: filtration, suffusion, contact erosion, concentrated leak erosion, sediment and wind transport, bedload transport. These erosion mechanisms comprise both hydraulic structures (dams, dikes) and natural environments (wind, river, coastal).
In this book, physicists and mechanicians share with the reader their most recent findings in their field work and study, while at the same time maintaining an accessible format. This compendium provides a well-documented information resource, and above all, a tool for approaching the issue of erosion of geomaterials in an up-to-date fashion for students, researchers and practitioners alike.



Table of Contents

Foreword xiii
Paul ROYET

Introduction xv
Stéphane BONELLI

Chapter 1. Introduction to the Process of Internal Erosion in Hydraulic Structures: Embankment Dams and Dikes 1
Jacques FRY

1.1. Introduction 1

1.2. The significance of internal erosion for hydraulic structures 2

1.3. The impact of incidents on embankment dams and dikes 5

1.4. Main results of erosion trials 16

1.5. Remarks on the applicability of erosion trials 24

1.6. Conclusion 35

1.7. Bibliography 36

Chapter 2. Suffusion, Transport and Filtration of Fine Particles in Granular Soil 39
Didier MAROT and Ahmed BENAMAR

2.1. Introduction 39

2.2. Dominant parameters that influence suffusion 41

2.3. Main initiation criteria for suffusion 45

2.4. An initiation criterion formulated using a geohydromechanical approach 53

2.5. The scaling effect and the energetic approach 55

2.6. Coupling the phenomena of suffusion and filtration-clogging 58

2.7. Processes causing filtration 59

2.8. Filtration modeling 64

2.9. Confrontation between the laboratory filtration tests and the modeling 69

2.10. Filtration and clogging 71

2.11. Conclusion 74

2.12. Bibliography 75

Chapter 3. The Process of Filtration in Granular Materials 81
Eric VINCENS, Nadège REBOUL and Bernard CAMBOU

3.1. Introduction 81

3.2. Fundamental characteristics of the filtering granular media 82

3.3. The distribution of constriction size 84

3.4. A probabilistic approach of constriction sizes 92

3.5. Diameter of control constrictions 99

3.6. A continuous approach of the process of filtration 105

3.7. Conclusion 110

3.8. Bibliography 111

Chapter 4. Contact Erosion between Two Soils 115
Rémi BÉGUIN, Pierre PHILIPPE, Yves-Henri FAURE and Cyril GUIDOUX

4.1. Introduction 115

4.2. Areas prone to CE in hydraulic structures 116

4.3. Description of CE mechanisms on a local scale 120

4.4. CE of a fine soil under a coarse soil 131

4.5. CE of a fine soil on a coarse soil 146

4.6. Possible scenarios that may lead to failure of a hydraulic structure 149

4.7. Conclusion and perspectives 151

4.8. Bibliography 152

Chapter 5. Concentrated Leak Erosion 155
Nadia BENAHMED, Christophe CHEVALIER and Stéphane BONELLI

5.1. Introduction 155

5.2. General points 156

5.3. The device and the protocol of the HET 160

5.4. Methods of interpretation 164

5.5. Effect of different soil parameters on erosion 174

5.6. Importance of the erosion index for hydraulic structures 181

5.7. Conclusion 183

5.8. Bibliography 184

Chapter 6. Modeling of Interfacial Erosion 187
Stéphane BONELLI, Frédéric GOLAY and Fabienne MERCIER

6.1. Introduction 187

6.2. Modeling of a two-phase medium 189

6.3. Modeling of the soil/fluid interface 195

6.4. Modeling of flow with erosion 198

6.5. Numerical modeling 205

6.6. Validation of numerical models 209

6.7. Illustrative examples 213

6.8. Conclusion 219

6.9. Bibliography 219

Chapter 7. Physics of Sediment and Aeolian Transport 223
Bruno ANDREOTTI and Philippe CLAUDIN

7.1. Introduction 223

7.2. Static transport threshold 224

7.3. Aeolian transport 227

7.4. Quantitative description of transport 232

7.5. Linear stability analysis of a flat erodible bed 240

7.6. Conclusion 248

7.7. Acknowledgments 249

7.8. Bibliography 249

Chapter 8. Two-Phase Modeling of Bedload Transport 253
Pascale AUSSILLOUS, Elisabeth GUAZZELLI and Yannick PEYSSON

8.1. Introduction 253

8.2. Incipient motion 254

8.3. Bedload transport 265

8.4. Conclusion and outlook 276

8.5. Acknowledgments 276

8.6. Bibliography 277

Chapter 9. Characterization of Natural Cohesive Sediments and Water Quality of Rivers 281
Fabien TERNAT, Patrick BOYER, Fabien ANSELMET and Muriel AMIELH

9.1. Introduction 281

9.2. Behavior of pollutants in rivers 282

9.3. Erosion of fine cohesive sediments 292

9.4. Experimental characterization 302

9.5. Example of operational application 310

9.6. Conclusion 317

9.7. Bibliography 319

Chapter 10. Sediment Transport and Morphodynamics in Nearshore Areas 325
Vincent REY and Damien SOUS

10.1. Introduction 325

10.2. Marine sediments 326

10.3. Sediment transport 331

10.4. Sediment structures and morphodynamic structures 336

10.5. Local effects: scouring around the structures 351

10.6. Long-term morphodynamics of beaches 354

10.7. Conclusion 359

10.8. Bibliography 360

List of Authors 365

Index 369

Erosion of Geomaterials

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      Publisher: ISTE Ltd and John Wiley & Sons Inc
      Publication Date: 13/07/2012
      ISBN13: 9781848213517, 978-1848213517
      ISBN10: 1848213514

      Description

      Book Synopsis

      This book aims to deliver significant scientific progress on the problem of the erosion of geomaterials, focusing on the mechanical/physical aspect. The chapters oscillate between a phenomenological outlook that is well grounded in experiments, and an approach that can offer a modeling framework.
      The basic mechanisms of internal and surface erosion are tackled one-by-one: filtration, suffusion, contact erosion, concentrated leak erosion, sediment and wind transport, bedload transport. These erosion mechanisms comprise both hydraulic structures (dams, dikes) and natural environments (wind, river, coastal).
      In this book, physicists and mechanicians share with the reader their most recent findings in their field work and study, while at the same time maintaining an accessible format. This compendium provides a well-documented information resource, and above all, a tool for approaching the issue of erosion of geomaterials in an up-to-date fashion for students, researchers and practitioners alike.



      Table of Contents

      Foreword xiii
      Paul ROYET

      Introduction xv
      Stéphane BONELLI

      Chapter 1. Introduction to the Process of Internal Erosion in Hydraulic Structures: Embankment Dams and Dikes 1
      Jacques FRY

      1.1. Introduction 1

      1.2. The significance of internal erosion for hydraulic structures 2

      1.3. The impact of incidents on embankment dams and dikes 5

      1.4. Main results of erosion trials 16

      1.5. Remarks on the applicability of erosion trials 24

      1.6. Conclusion 35

      1.7. Bibliography 36

      Chapter 2. Suffusion, Transport and Filtration of Fine Particles in Granular Soil 39
      Didier MAROT and Ahmed BENAMAR

      2.1. Introduction 39

      2.2. Dominant parameters that influence suffusion 41

      2.3. Main initiation criteria for suffusion 45

      2.4. An initiation criterion formulated using a geohydromechanical approach 53

      2.5. The scaling effect and the energetic approach 55

      2.6. Coupling the phenomena of suffusion and filtration-clogging 58

      2.7. Processes causing filtration 59

      2.8. Filtration modeling 64

      2.9. Confrontation between the laboratory filtration tests and the modeling 69

      2.10. Filtration and clogging 71

      2.11. Conclusion 74

      2.12. Bibliography 75

      Chapter 3. The Process of Filtration in Granular Materials 81
      Eric VINCENS, Nadège REBOUL and Bernard CAMBOU

      3.1. Introduction 81

      3.2. Fundamental characteristics of the filtering granular media 82

      3.3. The distribution of constriction size 84

      3.4. A probabilistic approach of constriction sizes 92

      3.5. Diameter of control constrictions 99

      3.6. A continuous approach of the process of filtration 105

      3.7. Conclusion 110

      3.8. Bibliography 111

      Chapter 4. Contact Erosion between Two Soils 115
      Rémi BÉGUIN, Pierre PHILIPPE, Yves-Henri FAURE and Cyril GUIDOUX

      4.1. Introduction 115

      4.2. Areas prone to CE in hydraulic structures 116

      4.3. Description of CE mechanisms on a local scale 120

      4.4. CE of a fine soil under a coarse soil 131

      4.5. CE of a fine soil on a coarse soil 146

      4.6. Possible scenarios that may lead to failure of a hydraulic structure 149

      4.7. Conclusion and perspectives 151

      4.8. Bibliography 152

      Chapter 5. Concentrated Leak Erosion 155
      Nadia BENAHMED, Christophe CHEVALIER and Stéphane BONELLI

      5.1. Introduction 155

      5.2. General points 156

      5.3. The device and the protocol of the HET 160

      5.4. Methods of interpretation 164

      5.5. Effect of different soil parameters on erosion 174

      5.6. Importance of the erosion index for hydraulic structures 181

      5.7. Conclusion 183

      5.8. Bibliography 184

      Chapter 6. Modeling of Interfacial Erosion 187
      Stéphane BONELLI, Frédéric GOLAY and Fabienne MERCIER

      6.1. Introduction 187

      6.2. Modeling of a two-phase medium 189

      6.3. Modeling of the soil/fluid interface 195

      6.4. Modeling of flow with erosion 198

      6.5. Numerical modeling 205

      6.6. Validation of numerical models 209

      6.7. Illustrative examples 213

      6.8. Conclusion 219

      6.9. Bibliography 219

      Chapter 7. Physics of Sediment and Aeolian Transport 223
      Bruno ANDREOTTI and Philippe CLAUDIN

      7.1. Introduction 223

      7.2. Static transport threshold 224

      7.3. Aeolian transport 227

      7.4. Quantitative description of transport 232

      7.5. Linear stability analysis of a flat erodible bed 240

      7.6. Conclusion 248

      7.7. Acknowledgments 249

      7.8. Bibliography 249

      Chapter 8. Two-Phase Modeling of Bedload Transport 253
      Pascale AUSSILLOUS, Elisabeth GUAZZELLI and Yannick PEYSSON

      8.1. Introduction 253

      8.2. Incipient motion 254

      8.3. Bedload transport 265

      8.4. Conclusion and outlook 276

      8.5. Acknowledgments 276

      8.6. Bibliography 277

      Chapter 9. Characterization of Natural Cohesive Sediments and Water Quality of Rivers 281
      Fabien TERNAT, Patrick BOYER, Fabien ANSELMET and Muriel AMIELH

      9.1. Introduction 281

      9.2. Behavior of pollutants in rivers 282

      9.3. Erosion of fine cohesive sediments 292

      9.4. Experimental characterization 302

      9.5. Example of operational application 310

      9.6. Conclusion 317

      9.7. Bibliography 319

      Chapter 10. Sediment Transport and Morphodynamics in Nearshore Areas 325
      Vincent REY and Damien SOUS

      10.1. Introduction 325

      10.2. Marine sediments 326

      10.3. Sediment transport 331

      10.4. Sediment structures and morphodynamic structures 336

      10.5. Local effects: scouring around the structures 351

      10.6. Long-term morphodynamics of beaches 354

      10.7. Conclusion 359

      10.8. Bibliography 360

      List of Authors 365

      Index 369

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