Pipelines are an important part of the world's energy infrastructure, and, without them, oil and gas, the most commonly used sources for energy today, would not be available to much of the world's countries. New theories and designs are constantly being researched and developed by scientists and engineers, to continue improving this technology and making it safer and more economical. The technology, processes, materials, and theories surrounding pipeline construction, application, and troubleshooting are constantly changing, and this groundbreaking series, "Advances in Pipes and Pipelines,"…mehr
Pipelines are an important part of the world's energy infrastructure, and, without them, oil and gas, the most commonly used sources for energy today, would not be available to much of the world's countries. New theories and designs are constantly being researched and developed by scientists and engineers, to continue improving this technology and making it safer and more economical. The technology, processes, materials, and theories surrounding pipeline construction, application, and troubleshooting are constantly changing, and this groundbreaking series, "Advances in Pipes and Pipelines," has been created to meet the needs of engineers and scientists to keep them up to date and informed of all of these advances. This latest volume in the series focuses on flexible pipelines and power cables, offering the engineer the most thorough coverage of the state of the art available. The authors of this work have written numerous books and papers on these subjects and are some of the most influential authors on flexible pipes in the world, contributing much of the literature on this subject to the industry. This new volume is a presentation of some of the most cutting-edge technological advances in technical publishing. This is the most comprehensive and in-depth series on pipelines, covering not just the various materials and their aspects that make them different, but every process that goes into their installation, operation, and design. This is the future of pipelines, and it is an important breakthrough. A must-have for the veteran engineer and student alike, this volume is an important new advancement in the energy industry, a strong link in the chain of the world's energy production.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Yong Bai, PhD is the president of Offshore Pipelines & Risers Inc. in Houston, and the director of the Offshore Engineering Research Center at Zhejiang University. His distinguished academic journey features a previous Professor of Offshore Structures at Stavanger University in Norway. Apart from his academic endeavors, he has an equally impressive track record in industry, with roles such as Manager of the Offshore Technology Department at ABS, Joint Industry Project (JIP) Manager at DNV, and Staff Engineer at Shell International E & P. He is the author of the numerous books, including multiple volumes available from Scrivener Publishing, and over 100 papers. Shuai Yuan, PhD, obtained his doctorate in structural engineering at Zhejiang University. He deepened his expertise through postdoctoral research at the same institution, focusing on the structural analysis of flexibles, and further expanded his repertoire of skills by engaging in detailed studies of marine operation simulation at the Norwegian University of Science and Technology. He recently commenced his role as a senior engineer, aiming to integrate theoretical knowledge with practical engineering solutions. Kaien Jiang, PhD, completed his doctoral studies in structural engineering at Zhejiang University. His primary research focuses on fatigue analysis on marine power cables. By conducting extensive laboratory experiments and numerical simulations, Dr. Jiang aims to enhance the understanding of cable fatigue behavior and develop predictive models for cable design and maintenance. He currently is deepening his expertise through postdoctoral research at Huadong Engineering Corporation Ltd., Power China Group, focusing on the structural analysis of offshore electrical platforms.
Inhaltsangabe
Preface xxiii Acknowledgements xxv Part I: Design and Application 1 1 Introduction 3 2 Cross-Sectional Design of Unbonded Flexible Pipeline 23 3 General Design of Subsea Power Cables 33 4 Mechanical and Electrical Design of Subsea Power Cables 41 5 Joints and Termination of Subsea Power Cables 61 6 Multi-Physics Analysis of Cable 77 7 Design of Subsea Fiber Optic Cables 91 8 Manufacturing and Testing of Subsea Power Cables 101 9 Hydrodynamics 109 Part II: Global Analysis 125 10 Soil-Pipe Interaction 127 11 On-Bottom Stability Analysis 159 12 Pipelay Analysis 177 Part III: Mechanical Analysis 201 13 Reeling Operation of Flexible Pipelines 203 14 Flexible Pipelines Subjected to Asymmetric Loads 227 15 Stress Concentration Effect on the Anti-Burst Capacity 255 16 Compressive Buckling of Tensile Armours 273 17 Expansion and Global Buckling Analysis 287 Part IV: Stress and Fatigue Analysis 303 18 Effect of Ovalization on Stress of Tensile Armours 305 19 Confined Buckling and Collapse of Flexible Pipes 323 20 Wet Collapse of Flexible Pipes 345 21 Torsional Buckling of Flexible Pipes 377 22 Stress and Fatigue of Tensile Armours 413 23 Stress and Fatigue of Flexible Pipes Reinforced by Steel Strips 431 24 Mechanical Properties of Fiberglass Reinforced Flexible Pipe 439 25 Stress and Fatigue Analysis of Stranded Structures 483 26 Influence of Compaction Degrees on Power Cable Conductor Fatigue 507 27 Fatigue Life Estimation of Power Cable Copper Conductors 535 28 Global Fatigue Analysis of Power Cable Copper Conductors 561 29 Integrity Management of Flexible Pipes 581 Part V: Risk and Integrity Management 591 30 Failure Modes and Mechanisms for Flexible Pipes 593 31 Quantitative Risk Assessment for Flexible Pipes 605 32 Durability and 10000 Hours Test 617 33 Risk-Based Inspection Planning Methodology 627 34 Inspection of Flexible Pipes 655 35 Insertion Method for Pipe Repair 669 36 Repair Methods for Flexible Pipes 689 37 Lifetime Assessment for Flexible Pipes 705 38 Risk & Integrity Management of Subsea Power Cables 717 39 Inspection and Repair of Subsea Power Cables 729 References 744 About the Authors 747 Index 749
Preface xxiii Acknowledgements xxv Part I: Design and Application 1 1 Introduction 3 2 Cross-Sectional Design of Unbonded Flexible Pipeline 23 3 General Design of Subsea Power Cables 33 4 Mechanical and Electrical Design of Subsea Power Cables 41 5 Joints and Termination of Subsea Power Cables 61 6 Multi-Physics Analysis of Cable 77 7 Design of Subsea Fiber Optic Cables 91 8 Manufacturing and Testing of Subsea Power Cables 101 9 Hydrodynamics 109 Part II: Global Analysis 125 10 Soil-Pipe Interaction 127 11 On-Bottom Stability Analysis 159 12 Pipelay Analysis 177 Part III: Mechanical Analysis 201 13 Reeling Operation of Flexible Pipelines 203 14 Flexible Pipelines Subjected to Asymmetric Loads 227 15 Stress Concentration Effect on the Anti-Burst Capacity 255 16 Compressive Buckling of Tensile Armours 273 17 Expansion and Global Buckling Analysis 287 Part IV: Stress and Fatigue Analysis 303 18 Effect of Ovalization on Stress of Tensile Armours 305 19 Confined Buckling and Collapse of Flexible Pipes 323 20 Wet Collapse of Flexible Pipes 345 21 Torsional Buckling of Flexible Pipes 377 22 Stress and Fatigue of Tensile Armours 413 23 Stress and Fatigue of Flexible Pipes Reinforced by Steel Strips 431 24 Mechanical Properties of Fiberglass Reinforced Flexible Pipe 439 25 Stress and Fatigue Analysis of Stranded Structures 483 26 Influence of Compaction Degrees on Power Cable Conductor Fatigue 507 27 Fatigue Life Estimation of Power Cable Copper Conductors 535 28 Global Fatigue Analysis of Power Cable Copper Conductors 561 29 Integrity Management of Flexible Pipes 581 Part V: Risk and Integrity Management 591 30 Failure Modes and Mechanisms for Flexible Pipes 593 31 Quantitative Risk Assessment for Flexible Pipes 605 32 Durability and 10000 Hours Test 617 33 Risk-Based Inspection Planning Methodology 627 34 Inspection of Flexible Pipes 655 35 Insertion Method for Pipe Repair 669 36 Repair Methods for Flexible Pipes 689 37 Lifetime Assessment for Flexible Pipes 705 38 Risk & Integrity Management of Subsea Power Cables 717 39 Inspection and Repair of Subsea Power Cables 729 References 744 About the Authors 747 Index 749
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