波浪.海床和结构物相互作用:模拟.过程及应用(英文版)

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波浪.海床和结构物相互作用:模拟.过程及应用(英文版)

波浪.海床和结构物相互作用:模拟.过程及应用(英文版)

作者:郑东生

开 本:16开

书号ISBN:9787313197573

定价:150.0

出版时间:2017-04-01

出版社:上海交通大学出版社


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 波浪.海床和结构物相互作用:模拟.过程及应用(英文版)

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