1 Overview
1��1Background
1��2Recent Advances in Theoretical Models for Wave-Seabed Interactions��WSIs��
1��2��1An Overview of Theoretical Models
1��2��2Simplified Models
1��2��3Biot's Poro-Elastic Models for Oscillatory Mechanism
1��2��4Inelastic Models for Residual Mechanism
1��2��5Poro-Elastoplastic Models
1��2��6Waves Propagating over a Porous Seabed�� Wave Damping and Seepage Flux
1��3Recent Advances in Wave-Induced Seabed Instability
1��3��1Shear Failure
1��3��2Liquefaction
1��4Recent Advances in Physical Modeling
1��4��1Wave Flume Experiments
1��4��2Compressive Tests
1��4��3Centrifugal Wave Experiment
1��5Recent Advances in Field Measurements
1��6Recent Advances in Wave-Seabed-Structure Interactions ��WSSIs��
1��6��1Seawalls
1��6��2Breakwaters
1��6��3Pipelines
1��6��4Other Foundations
1��7Challenges in Future Studies
2 Basic Seabed Mechanisms
2��1Introduction
2��2Wave Models
2��2��1Linear Wave Model
2��2��2Fully Non-Linear Wave Models
2��3Wave-Induced Oscillatory Soil Response
2��3��1Yamamoto-Madsen Model
2��3��2Okusa ��1985b�� Model
2��3��3Mei-Foda ��1981�� Model
2��3��4u-p Approach
2��3��5u-U Approach
2��3��6Discussions�� Comparisons and Validation of the Models
2��4Wave-Induced Residual Soil Response
2��4��11D Seed-Rahman Model
2��4��22D Seed-Rahman Model
2��4��3Poro-Elastoplastic Seabed Model
2��5Progressive Nature of Wave-Induced Liquefaction
2��5��1Two-Layered Fluid Systems
2��5��2Poro-Elastoplastic Soil Model for Progressive Liquefaction
2��6Solitary Wave over a Sloping Seabed
2��6��1Theoretical Model
2��6��2Comparison with Previous Works
2��6��3Results and Discussions
2��7Coupled Model for Wave-Seabed Interactions
3 Soil Response in Marine Sediments under Combined Loading of Waves and Currents
3��1Introduction
3��2Flow Models for Wave-Current Interaction
3��2��1Analytical Solution�� Third-Order Approximation of Wave-Current Interactions
3��2��2Numerical Models of Wave-Current Interactions
3��3Seabed Model
3��3��1Boundary Value Problem
3��3��2Analytical Solutions and Numerical Models
3��3��3Treatment of Lateral Boundary Conditions
3��4Discussions
3��4��1Effects of Currents
3��4��2Seabed Liquefaction under Combined Wave and Current Loading
4 Integrated Model of Wave-Seabed Interactions around Caisson-Type Breakwaters
4��1Introduction
4��2Theoretical Model
4��2��1Wave Model
4��2��2Seabed Model
4��2��3Integration of Wave and Seabed Models
4��3Validation of the Model
4��3��1Lu's ��2005�� Experiment�� Progressive Waves
4��3��2Tsai and Lee's ��1995�� Experiment�� Standing Wave
4��3��3Mizutani and Mostafa's ��1998�� Experiment�� Submerged Breakwater
4��3��4Mostafa et al��'s ��1999�� Experiment�� Composite Breakwater
4��4Application 1�� Seabed Response around Composite Breakwater under Ocean Wave Loading
4��4��1Consolidation of Seabed under Composite Breakwater and Static Water Pressure
4��4��2Dynamic Response of a Seabed
4��4��3Wave-Induced Momentary Liquefaction
4��5Application II�� Water Waves over Permeable Submerged Breakwaters with Bragg Reflection
4��5��1Numerical Example Configuration
4��5��2Comparison with Experiments ��Cho et al�� 2004��
4��5��3Pore-Water Pressures
4��5��4Vertical Effective Stresses
4��5��5Liquefaction Potential
4��6Application III�� Wave-Induced Dynamic Response in the Vicinity of a
Breakwater on a Sloping Seabed
4��6��1Wave-Seabed-Breakwater Interactions
4��6��2Wave-Induced Residual Liquefaction
5 Mechanics of Wave-Seabed-Pipeline Interactions
5��1Introduction
5��2Theoretical Formulations
5��2��1Wave Model
5��2��2Seabed Model
5��2��3Integration of Wave and Seabed Models
5��3Validations of Theoretical Models
5��4Oscillatory Soil Response around a Fully Buried Pipeline
5��4��1Oscillatory Soil Response in a Non-Homogeneous Seabed
5��4��2Internal Stresses of Pipeline
5��4��3Inertial Effects and Soil-Pipeline Contact Effects
5��4��4Effects of a Cover Layer
5��5Residual Soil Response around a Buried Pipeline
5��5��1Wave-Induced Pore Pressure Build-Up around a Buried Pipeline
5��5��2Poro-Elastic Seabed Model of Wave-Induced Residual Liquefaction
5��6Wave-Seabed-Pipeline Interactions in a Trench Layer
5��6��1Development of Liquefaction Potential
5��6��2Implementation for Practical Engineers
5��7Improved Analysis Method for Wave-Induced Pipeline Stability
5��7��1Physical Phenomena of Pipeline Losing On-Bottom Stability
5��7��2Criteria for Pipeline On-Bottom Instability
5��7��3Procedure for Analysis of Wave-Induced Pipeline On-Bottom Stability
5��7��4Comparison with DNV Recommended Practice
6 Three-Dimensional Model of Wave-Seabed Interactions around Breakwater Heads
6��1Introduction
6��2Wave Field around Breakwater Heads
6��2��1Linear Wave Model
6��2��2Non-Linear Wave Model
6��3Seabed Models
6��3��1Poro-Elastic Models of Oscillatory Soil Response
6��3��2Poro-Elastic Models of Residual Soil Response
6��3��3Poro-Elastoplastic Models
6��4Results and Discussions
6��4��1Wave Diffraction
6��4��2Wave Obliquity
6��4��3Comparison of 1D and 3D Models
6��4��4Comparison between Poro-Elastic and Poro-Elastoplastic Models
6��5Wave-Induced Oscillatory Soil Response around Two Breakwaters
7 Seabed Instability around Offshore Wind Turbine Foundations
7��1Introduction
7��2Monopile Foundation
7��2��1Seabed Model
7��2��2Wave Model
7��2��3Boundary Conditions
7��2��4Integrated Process
7��2��5Discussion�� Seabed Response around a Monopile
7��2��6Discussion�� Parametric Studies of Pore Pressure around the Monopile
7��2��7Discussion�� Effect of Wavelength on Pore-Water Pressure around a Monopile
7��2��8Discussion�� Soil Displacements
7��2��9Discussion�� Displacement of the Monopile
7��3Case Study�� Donghai Offshore Wind Farm�� Shanghai�� China
7��3��1General Introduction of Donghai Offshore Wind Farm
7��3��2Characteristics of DH-OWF and Its Engineering Solutions
7��3��3Foundation of Donghai Offshore Wind Farm
7��3��4Numerical Model
7��3��5Discussion��Effects of Wave Parameters on Hydrodynamics
7��3��6Discussion��Wave��Induced Pore Pressure around HRSF
7��3��7Discussion��Effects of Wave and Soil Parameters on Soil Response
7��3��8Discussion��Wave��Induced Liquefaction around HRSF
8 Physical Modelling��One-Dimensional Compressive Tests
8��1Introduction
8��2Experimental Facility
8��3Experiments with a Sandy Deposit
8��3��1Materials
8��3��2Experimental Procedure
8��3��3Comparison with Previous Analytical Solution
8��3��4Discusslon��Attenuation and Phase Lag of Pore Pressures
8��3��5Discusslon��Effects of Wave Cycles
8��3��6Discussion��Efiects of Wave Period and Wave Height
8��3��7Discussion��Efiects of Relative Density and Saturation
8��3��8Discussion��Sandy Deposit Liquefaction
8��3��9Discussion��Variations of Sandy Deposit Height
8��4Experiments with Sand��Clay Mixtures
8��4��1Experimental Details
8��4��2Discussion��Effects of Clay Content��cc��
8��4��3Discussion��Settlement ofthe Deposit
Appendix A Analytical Solution for a Seabed of Finite Thickness��Hsu&Jeng1994��
Appendix B Derivation of u-p Approximation��Jeng et a1��1999��
Appendix C Derivation of u-U Approximation��Cha et a1��2002��
Appendix D Mathematical Derivations of Analytical Solutions for Residual Soil Response��Jeng el a1��2007��
Appendix E Mathematical Model of the Two-Layered Viscous Fluid System��Liuet a1��2009��
References
AuthOFIndex
SubjectIndex