Subsea pipelines and risers / Yong Bai and Qiang Bai.

Format:

Book

Author/Creator:

Bai, Yong.

Contributor:

Bai, Qiang.

Series:

Elsevier ocean engineering book series.

Ocean engineering series

Language:

English

Subjects (All):

Underwater pipelines.

Ocean engineering.

Physical Description:

1 online resource (841 p.)

Edition:

1st ed.

Place of Publication:

Amsterdam : Elsevier, 2005.

Language Note:

English

Summary:

Updated edition of a best-selling title Author brings 25 years experience to the work Addresses the key issues of economy and environment Marine pipelines for the transportation of oil and gas have become a safe and reliable way to exploit the valuable resources below the world's seas and oceans. The design of these pipelines is a relatively new technology and continues to evolve in its quest to reduce costs and minimise the effect on the environment. With over 25years experience, Professor Yong Bai has been able to assimilate the essence of the applied mechanics

Contents:

Front Cover; Subsea Pipelines and Risers; Copyright Page; Foreword; Foreword to ""Pipeliners and Risers"" Book; Preface; Table of Contents; Part I: Mechanical Design; Chapter 1. Introduction; 1.1 Introduction; 1.2 Design Stages and Process; 1.3 Design Through Analysis (DTA); 1.4 Pipeline Design Analysis; 1.5 Pipeline Simulator; 1.6 References; Chapter 2. Wall-thickness and Material Grade Selection; 2.1 Introduction; 2.2 Material Grade Selection; 2.3 Pressure Containment (hoop stress) Design; 2.4 Equivalent Stress Criterion; 2.5 Hydrostatic Collapse

2.6 Wall Thickness and Length Design for Buckle Arrestors2.7 Buckle Arrestor Spacing Design; 2.8 References; Chapter 3. Buckling/Collapse of Deepwater Metallic Pipes; 3.1 Introduction; 3.2 Pipe Capacity under Single Load; 3.3 Pipe Capacity under Couple Load; 3.4 Pipes under Pressure Axial Force and Bending; 3.5 Finite Element Model; 3.6 References; Chapter 4. Limit-state based Strength Design; 4.1 Introduction; 4.2 Out of Roundness Serviceability Limit; 4.3 Bursting; 4.4 Local Buckling/Collapse; 4.5 Fracture; 4.6 Fatigue; 4.7 Ratcheting; 4.8 Dynamic Strength Criteria

4.9 Accumulated Plastic Strain4.10 Strain Concentration at Field Joints Due to Coatings; 4.11 References; Part II: Pipeline Design; Chapter 5. Soil and Pipe Interaction; 5.1 Introduction; 5.2 Pipe Penetration in Soil; 5.3 Modeling Friction and Breakout Forces; 5.4 References; Chapter 6. Hydrodynamics around Pipes; 6.1 Wave Simulators; 6.2 Choice of Wave Theory; 6.3 Mathematical Formulations Used in the Wave Simulators; 6.4 Steady Currents; 6.5 Hydrodynamic Forces; 6.6 References; Chapter 7. Finite Element Analysis of In-situ Behavior; 7.1 Introduction

7.2 Description of the Finite Element Model7.3 Steps in an Analysis and Choice of Analysis Procedure; 7.4 Element Types Used in the Model; 7.5 Non-linearity and Seabed Model; 7.6 Validation of the Finite Element Model; 7.7 Dynamic Buckling Analysis; 7.8 Cyclic In-place Behaviour during Shutdown Operations; 7.9 References; Chapter 8. Expansion, Axial Creeping, Upheaval/Lateral Buckling; 8.1 Introduction; 8.2 Expansion; 8.3 Axial Creeping of Flowlines Caused by Soil Ratcheting; 8.4 Upheaval Buckling; 8.5 Lateral Buckling; 8.6 Interaction between Lateral and Upheaval Buckling; 8.7 References

Chapter 9. On-bottom Stability9.1 Introduction; 9.2 Force Balance: the Simplified Method; 9.3 Acceptance Criteria; 9.4 Special Purpose Program for Stability Analysis; 9.5 Use of FE Analysis for Intervention Design; 9.6 References; Chapter 10. Vortex-induced Vibrations (VIV) and Fatigue; 10.1 Introduction; 10.2 Free-span VIV Analysis Procedure; 10.3 Fatigue Design Criteria; 10.4 Response Amplitude; 10.5 Modal Analysis; 10.6 Example Cases; 10.7 References; Chapter 11. Force Model and Wave Fatigue; 11.1 Introduction; 11.2 Fatigue Analysis; 11.3 Force Model

11.4 Comparisons of Frequency Domain and Time Domain Approaches

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

ISBN:

1-281-01867-8

9786611018672

1-85617-562-6

0-08-052419-2

OCLC:

154332591