Subsea pipeline design, analysis, and installation /

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"Subsea pipelines are used for a number of purposes in the development of subsea hydrocarbon resources as shown in Figure 1.1. A pipeline system can be a single-pipe pipeline system, pipe-in-pipe or bundled system. Normally, the term of subsea flow-lines is used to describe the subsea pipelines...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bai, Qiang
Otros Autores: Bai, Yong
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Waltham [Massachusetts] ; Oxford [England] : Gulf Professional Publishing, 2014.
Temas:
Offshore structures > Design and construction.
Underwater pipelines > Design and construction.
TECHNOLOGY & ENGINEERING > Mechanical.
Offshore structures > Design and construction
Underwater pipelines > Design and construction
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Subsea Pipeline Design, Analysis, and Installation; Copyright; Contents; Foreword; Preface; Part One
  • Mechanical Design; Chapter 1
  • Introduction; 1. Introduction; 2. Design Stages and Process; 3. Design through Analysis; 4. Pipeline Design Analysis; 5. Finite Element Analysis; References; Chapter 2
  • Wall Thickness and Material Grade Selection; 1. Introduction; 2. Material Grade Selection; 3. Pressure Containment Design; 4. Equivalent Stress Criterion; 5. Hydrostatic Collapse; 6. Buckle Arrestors; References; Chapter 3
  • Buckling and Collapse of Metallic Pipes; 1. Introduction.
  • 2. Analytical Solution of Limit Moment3. Finite Element Analysis; 4. Guidelines for Bending Strength Calculations; References; Chapter 4
  • Limit-State Based Strength Design; 1. Introduction; 2. Stress Based Design and Strain Based Design; 3. Ultimate Limit State; 4. Serviceability Limit State; 5. Fatigue Limit State; 6. Accidental Limit State; References; Part Two
  • Pipeline Design; Chapter 5
  • Hydraulic and Thermal Analysis of Subsea Pipelines; 1. Introduction; 2. Crude Oil Transportation Pipelines; 3. Gas Transmission Pipelines; 4. Hydraulic Analysis of Oil-Gas Production Pipelines.
  • 5. Water Transportation Pipelines6. Commercial Software for Design and Analysis; References; Chapter 6
  • Soil and Pipe Interaction; 1. Introduction; 2. Pipe Penetration in Cohesive Soil; 3. Pipe Penetration in Noncohesive Soils; 4. Axial Load-Displacement Response of Pipelines; 5. Lateral Load-Displacement Response of Pipelines; References; Chapter 7
  • Hydrodynamics around Pipes; 1. Introduction; 2. Wave Theory; 3. Steady Currents; 4. Hydrodynamic Forces; References; Chapter 8
  • Finite Element Analysis of In Situ Behavior; 1. Introduction; 2. Finite Element Modeling of the Pipeline System.
  • 3. Procedure and Load Steps in Finite Element Analysis4. Element Types Used in the Model; 5. Nonlinearity and the Seabed Model; 6. Validation of the Finite Element Model; 7. Dynamic Buckling Analysis; 8. Cyclic In-Place Behavior During Shutdown Operations; References; Chapter 9
  • Thermal Expansion Design; 1. Introduction; 2. Pipeline Strains; 3. Pipeline Stresses; 4. Effective Axial Force of the Pipeline; 5. Expansion of a Single-Pipe Pipeline; 6. Expansion of the Pipe-in-Pipe System; 7. Examples of Expansion Analysis; References; Chapter 10
  • Lateral Buckling and Pipeline Walking.
  • 1. Introduction2. Buckle Initiation; 3. Mitigation of Lateral Buckling; 4. Pipeline Walking; References; Chapter 11
  • Upheaval Buckling; 1. Introduction; 2. Analytical Solution of Upheaval Buckling; 3. Finite Element Analysis of Upheaval Buckling; 4. Stabilization Against Upheaval Buckling; 5. Design Against Upheaval Buckling; References; Chapter 12
  • Fatigue and Fracture; 1. Introduction; 2. Fatigue S-N Approach; 3. Fracture; 4. Recognized Industry Codes of ECA; References; Chapter 13
  • On-Bottom Stability; 1. Introduction; 2. Vertical On-Bottom Stability; 3. Lateral On-Bottom Stability.

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