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Subsea pipeline integrity and risk management /
Subsea repairs and inspection are costly for petroleum and pipeline engineers and proper training is needed to focus on ensuring system strength and integrity. Subsea Pipeline Integrity and Risk Management is the perfect companion for new engineers who need to be aware of the state-of-the-art techni...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Waltham, MA :
Gulf Professional Publishing,
2014.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; SUBSEA PIPELINE INTEGRITY AND RISK MANAGEMENT; COPYRIGHT; CONTENTS; FOREWORD; PREFACE; Part 1
- Pipeline Integrity Management; Chapter 1
- Corrosion and Corroded Pipelines; 1. INTRODUCTION; 2. CORROSION DEFECT PREDICTION; 3. REMAINING STRENGTH OF CORRODED PIPE; REFERENCES; Chapter 2
- Buckling and Collapse of Corroded Pipes; 1. INTRODUCTION; 2. MOMENT CAPACITY OF PIPE UNDER COMBINED LOADS; 3. COLLAPSE DUE TO EXTERNAL PRESSURE; 4. MODIFICATION TO TIMOSHENKO AND GERE'S EQUATIONS; 5. INTERACTION OF BENDING AND PRESSURE; 6. CONCLUSIONS; REFERENCES; Chapter 3
- Dented Pipelines.
- 1. INTRODUCTION2. LIMIT-STATE BASED CRITERIA FOR DENTED PIPES; 3. FRACTURE OF PIPES WITH LONGITUDINAL CRACKS; 4. FRACTURE OF PIPES WITH CIRCUMFERENTIAL CRACKS; 5. RELIABILITY-BASED ASSESSMENT; 6. DESIGN EXAMPLES; REFERENCES; Chapter 4
- Pipeline Inspection and Subsea Repair; 1. PIPELINE INSPECTION; 2. IPELINE REPAIR METHODS; 3. DEEPWATER PIPELINE REPAIR; REFERENCES; Chapter 5
- Integrity Management of Flexible Pipes; 1. INTRODUCTION; 2. FAILURE MODES; 3. FAILURE DRIVERS AND MECHANISMS; 4. INTEGRITY MANAGEMENT STRATEGY; 5. INSPECTION AND MONITORING, IN GENERAL; 6. TESTING AND ANALYSIS MEASURES; REFERENCES.
- Chapter 6
- Leak Detection Systems1. INTRODUCTION; 2. LEAK DETECTION METHODS; 3. KEY ATTRIBUTES OF DIFFERENT METHODS; 4. PRINCIPLES OF LEAK DETECTION; REFERENCES; Chapter 7
- Fiber Optic Monitoring System; 1. INTRODUCTION; 2. FIBER OPTIC SENSOR TECHNIQUES; 3. TYPES OF SENSING FIBER OPTICS; 4. APPLICATION OF FIBER OPTIC MONITORING ON SUBSEA PIPELINES; REFERENCES; Part 2
- Risk and Reliability Applications; Chapter 8
- Risk Analysis for Subsea Pipelines; 1. INTRODUCTION; 2. ACCEPTANCE CRITERIA; 3. IDENTIFICATION OF INITIATING EVENTS; 4. CAUSE ANALYSIS; 5. ROBABILITY OF INITIATING EVENTS; 6. CAUSES OF RISK.
- 7. FAILURE PROBABILITY ESTIMATION BASED ON QUALITATIVE REVIEW AND DATABASES8. FAILURE PROBABILITY ESTIMATION BASED ON STRUCTURAL RELIABILITY METHODS; 9. CONSEQUENCE ANALYSIS; 10. EXAMPLE 1. RISK ANALYSIS FOR A SUBSEA GAS PIPELINE; 11. EXAMPLE 2. DROPPED OBJECT RISK ANALYSIS; 12. EXAMPLE 3. USE OF RBIM TO REDUCE OPERATION COSTS; REFERENCES; Chapter 9
- Risk-Based Inspection; 1. INTRODUCTION; 2. MODELING THE RISK; 3. ACCEPTANCE CRITERIA; 4. RBI PROCESS; REFERENCES; Chapter 10
- Reliability-Based Strength Design of Pipelines; 1. INTRODUCTION; 2. FAILURE PROBABILITY; 3. UNCERTAINTY MEASURES.
- 4. CALIBRATION OF SAFETY FACTORS5. RELIABILITY-BASED DETERMINATION OF CORROSION ALLOWANCE; REFERENCES; Chapter 11
- LCC Modeling for Pipeline Design; 1. INTRODUCTION; 2. INITIAL COST; 3. FINANCIAL RISK; 4. TIME VALUE OF MONEY; 5. EXAMPLE OF FABRICATION TOLERANCE USING THE LCC MODEL; 6. EXAMPLE OF ON-BOTTOM STABILITY USING THE LCC MODEL; REFERENCES; Chapter 12
- Quantitative Risk Analysis Based RBI; 1. INTRODUCTION; 2. METHODOLOGY AND BASIC PRINCIPLE; 3. QUANTITATIVE RISK ANALYSIS BASED RBI PROCESS; 4. CASE STUDY; REFERENCES; Chapter 13
- Risk- and Reliability-Based Fitness for Service; 1. INTRODUCTION.