Subsea Pipeline Design, Analysis, and Installation
This book is based on the authors' 30 years of experience in offshore. The authors provide rigorous coverage of the entire spectrum of subjects in the discipline, from pipe installation and routing selection and planning to design, construction, and installation of pipelines in some of the hars...
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| Main Authors | , |
|---|---|
| Format | eBook |
| Language | English |
| Published |
Chantilly
Elsevier
2014
Elsevier Science & Technology Gulf Professional Publishing Gulf Professional Pub |
| Edition | 1 |
| Subjects | |
| Online Access | Get full text |
| ISBN | 0123868882 9780123868886 |
| DOI | 10.1016/C2010-0-67706-6 |
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| Abstract | This book is based on the authors' 30 years of experience in offshore. The authors provide rigorous coverage of the entire spectrum of subjects in the discipline, from pipe installation and routing selection and planning to design, construction, and installation of pipelines in some of the harshest underwater environments around the world. All-inclusive, this must-have handbook covers the latest breakthroughs in subjects such as corrosion prevention, pipeline inspection, and welding, while offering an easy-to-understand guide to new design codes currently followed in the United States, United Kingdom, Norway, and other countries. |
|---|---|
| AbstractList | This book is based on the authors' 30 years of experience in offshore. The authors provide rigorous coverage of the entire spectrum of subjects in the discipline, from pipe installation and routing selection and planning to design, construction, and installation of pipelines in some of the harshest underwater environments around the world. All-inclusive, this must-have handbook covers the latest breakthroughs in subjects such as corrosion prevention, pipeline inspection, and welding, while offering an easy-to-understand guide to new design codes currently followed in the United States, United Kingdom, Norway, and other countries. As deepwater wells are drilled to greater depths, pipeline engineers and designers are confronted with new problems such as water depth, weather conditions, ocean currents, equipment reliability, and well accessibility. Subsea Pipeline Design, Analysis and Installation is based on the authors' 30 years of experience in offshore. The authors provide rigorous coverage of the entire spectrum of subjects in the discipline, from pipe installation and routing selection and planning to design, construction, and installation of pipelines in some of the harshest underwater environments around the world. All-inclusive, this must-have handbook covers the latest breakthroughs in subjects such as corrosion prevention, pipeline inspection, and welding, while offering an easy-to-understand guide to new design codes currently followed in the United States, United Kingdom, Norway, and other countries. Gain expert coverage of international design codesUnderstand how to design pipelines and risers for today's deepwater oil and gasMaster critical equipment such as subsea control systems and pressure piping "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 carrying oil and gas products from the wellhead to the riser base; the riser is connected to the processing facilities (e.g. a platform or a FPSO). The subsea pipelines from the processing facilities to shore are called export pipelines, while the subsea pipelines from the platform to subsea equipment used to transfer water or chemical inhibiters are called water injection or chemical flow-lines"-- |
| Author | Bai Yong Bai Qiang |
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| Copyright | 2014 |
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| DEWEY | 621.8/67209162 |
| DOI | 10.1016/C2010-0-67706-6 |
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| Notes | Available also in a print ed. Mode of access: Internet via World Wide Web. Title from title screen. |
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| Publisher | Elsevier Elsevier Science & Technology Gulf Professional Publishing Gulf Professional Pub |
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| Snippet | This book is based on the authors' 30 years of experience in offshore. The authors provide rigorous coverage of the entire spectrum of subjects in the... As deepwater wells are drilled to greater depths, pipeline engineers and designers are confronted with new problems such as water depth, weather conditions,... "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... |
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| SubjectTerms | Design and construction Marine Engineering & Naval Architecture Ocean engineering Offshore Construction Offshore structures Oil & Gas Engineering Pipelines, Transport & Storage Underwater pipelines |
| SubjectTermsDisplay | Electronic books. Offshore structures -- Design and construction. Underwater pipelines -- Design and construction. |
| TableOfContents | Title Page
Preface
Table of Contents
1. Introduction
2. Wall Thickness and Material Grade Selection
3. Buckling and Collapse of Metallic Pipes
4. Limit-State Based Strength Design
5. Hydraulic and Thermal Analysis of Subsea Pipelines
6. Soil and Pipe Interaction
7. Hydrodynamics around Pipes
8. Finite Element Analysis of in situ Behavior
9. Thermal Expansion Design
10. Lateral Buckling and Pipeline Walking
11. Upheaval Buckling
12. Fatigue and Fracture
13. On-Bottom Stability
14. Pipeline Spans and VIV Fatigue
15. Force Model and Wave Fatigue
16. Trawl Impact, Pullover, and Drop Objects
17. Pipe-in-Pipe and Bundle Systems
18. Seismic Design
19. Corrosion Prevention and Advanced CP Design
20. Arctic Pipelines
21. Subsea Survey and Positioning
22. Route Optimization, Shore Approach, Tie-in, and Protection
23. Åsgard Flowlines Design Examples
24. Flexible Pipe
25. Cross-Sectional and Dynamic Analyses of Flexible Pipes
26. Tensile and Compressive Strengths of RTP Pipeline
27. Burst Strength of RTP Pipeline
28. Collapse of RTP Pipelines
29. Offshore Installation of RTP
30. On-Bottom Stability of RTP
31. Use of High-Strength Pipeline Steels
32. Welding and Defect Acceptance
33. Installation Design
34. Pipeline Commissioning, Operations, and Maintenance
Index 1. Introduction -- 2. Trawl Gears -- 3. Acceptance Criteria -- 4. Impact Response Analysis -- 5. Pullover Loads -- 6. FE Model for Pullover Response Analyses -- 7. Case Study -- References -- Chapter 17 - Pipe-in-Pipe and Bundle Systems -- 1. Introduction -- 2. PIP Systems -- 3. Bundle Systems -- References -- Chapter 18 - Seismic Design -- 1. Introduction -- 2. Seismic Hazards -- 3. Pipeline Seismic Design Guidelines -- 4. Seismic Design Methodology -- 5. Analysis Example -- 6. Mitigation Methods -- References -- Chapter 19 - Corrosion Prevention and Advanced CP Design -- 1. Introduction -- 2. Fundamentals of Cathodic Protection -- 3. Pipeline Coatings -- 4.CP Design Parameters -- 5. Galvanic Anodes System Design -- 6. Internal Corrosion Inhibitors -- References -- Chapter 20 - Arctic Pipelines -- 1. Introduction -- 2. Arctic Pipeline Considerations -- 3. Arctic Pipeline Design Approach -- 4. Geothermal Analysis -- 5. Ice Scour Analysis -- 6. Installation Techniques -- References -- Chapter 21 - Subsea Survey and Positioning -- 1. Introduction -- 2. Subsea Survey -- 3. Subsea Metrology and Positioning -- 4. Subsea Soil Investigation -- References -- Chapter 22 - Route Optimization, Shore Approach, Tie-In, and Protection -- 1. Introduction -- 2. Pipeline Routing -- 3. Shore Approach -- 4. Pipeline Tie-Ins -- 5. Pipeline Trenching and Burying -- 6. Pipeline Rock Dumping -- References -- Chapter 23 - Åsgard Flowlines Design Examples -- 1. Introduction -- 2. Wall Thickness and Line Pipe Material Selection -- 3. Limit State Strength Criteria -- 4. Installation and On-Bottom Stability -- 5. Design for Global Buckling, Fishing Gear Loads, and VIV -- References -- Part Three - Flexible and RTP Pipelines -- Chapter 24 - Flexible Pipe -- 1. Introduction -- 2. Applications of Flexible Pipe -- 3. Flexible Pipe System and Components -- References 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 Moment -- 3. 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 Pipelines -- 6. 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 Analysis -- 4. 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. Introduction -- 2. 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 -- 4. Pipe-Soil Interaction -- 5. Stabilization Measures -- 6. Acceptance Criteria -- 7. Stability Analysis -- References -- Chapter 14 - Pipeline Spans and VIV Fatigue -- 1. Introduction -- 2. Static Analysis -- 3. Dynamic Analysis -- 4. VIV Mitigation and Span Correction -- 5. Example Case -- References -- Chapter 15 - Force Model and Wave Fatigue -- 1. Introduction -- 2. Fatigue Analysis -- 3. Force Model -- 4. Comparison of Frequency Domain and Time Domain Approaches -- 5. Summary -- References -- Chapter 16 - Trawl Impact, Pullover, and Drop Objects Chapter 25 - Cross-Sectional and Dynamic Analyses of Flexible Pipes -- 1. Introduction -- 2. Flexible Pipe Guidelines -- 3. Material and Mechanical of Properties Flexible Pipes -- 4. Analytical Formulations in Flexible Pipe Design -- 5. FE Analysis of Unbonded Flexible Pipe -- References -- Chapter 26 - Tensile and Compressive Strengths of RTP Pipeline -- 1. Introduction -- 2. Code Requirements -- 3. RTP Pipe Under Tension -- 4. RTP Pipe Under Compression -- References -- Chapter 27 - Burst Strength of RTP Pipeline -- 1. Introduction -- 2. Experimental Analysis -- 3. Analytical Analysis -- 4. Finite Element Analysis -- 5. Results and Comparison -- References -- Chapter 28 - Collapse of RTP Pipelines -- 1. Introduction -- 2. Analytical Analysis of RTP Collapse -- 3. FE Analysis of RTP Collapse -- 4. Analysis Example of RTP Collapse -- 5. Sensitivity Analysis -- References -- Chapter 29 - Offshore Installation of RTP -- 1. Introduction -- 2. Code Requirements -- 3. Analytical Analysis of RTP Installation -- 4. FE Analysis of RTP Installation -- 5. Parametric Studies -- 6. Summary -- References -- Chapter 30 - On-Bottom Stability of RTP -- 1. Introduction -- 2. Stabilizing Methods -- 3. On-Bottom Stability Analysis of RTP -- References -- Part Four - Welding, Installation, and Precommissioning -- Chapter 31 - Use of High-Strength Pipeline Steels -- 1. Introduction -- 2. Usage of High-Strength Steel Line Pipes -- 3. Potential Benefits and Disadvantages of High-Strength Steel -- 4. Welding of High-Strength Line Pipe -- 5. Cathodic Protection -- 6. Fatigue and Fracture of High-Strength Steel -- 7. Material Property Requirements -- References -- Chapter 32 - Welding and Defect Acceptance -- 1. Introduction -- 2. Weld Repair Analysis -- 3. Allowable Excavation Length Assessment -- 4. Conclusions -- References -- Chapter 33 - Installation Design 1. Introduction -- 2. Pipeline Installation Vessels -- 3. Pipe Laying Methods -- 4. Installation Software and Code Requirements -- 5. Physical Background for Installation -- 6. Analytical Method for S-Lay Installation -- 7. FEA of Pipeline Installation with an In-line Valve -- 8. Two-Medium Pipeline Design Concept -- References -- Chapter 34 - Pipeline Commissioning, Operations, and Maintenance -- 1. Introduction -- 2. Precommissioning Activities -- 3. Commissioning -- 4. Operations -- 5. Maintenance -- References -- Index |
| Title | Subsea Pipeline Design, Analysis, and Installation |
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