| Preface | p. xv |
| The Author | p. xvii |
| Introduction to Offshore Structures | |
| Introduction | p. 1 |
| History of Offshore Structures | p. 1 |
| Overview of Field Development | p. 2 |
| Field-Development Cost | p. 4 |
| Multicriteria Concept Selection | p. 8 |
| Feed Requirements | p. 9 |
| Types of Offshore Platforms | p. 10 |
| Different Types of Offshore Structures | p. 14 |
| Minimal Offshore Structure | p. 19 |
| Preview of This Book | p. 20 |
| Bibliography | p. 21 |
| Offshore Structure Loads and Strength | |
| Introduction | p. 23 |
| Gravity Loads | p. 23 |
| Dead Load | p. 23 |
| Live Load | p. 26 |
| Impact Load | p. 29 |
| Design for Serviceability Limit State | p. 29 |
| Helicopter Landing Loads | p. 31 |
| Crane Support Structures | p. 38 |
| Wind Load | p. 42 |
| Stair Design | p. 46 |
| Gravity Loads | p. 46 |
| Wind Loads | p. 47 |
| Offshore Loads | p. 47 |
| Wave Load | p. 48 |
| Current Force | p. 55 |
| Earthquake Load | p. 60 |
| Ice Loads | p. 65 |
| Other Loads | p. 66 |
| Design for Ultimate Limit State (ULS) | p. 67 |
| Load Factors | p. 67 |
| Extreme Environmental Situation for Fixed Offshore Platforms | p. 68 |
| Operating Environmental Situations-Fixed Platforms | p. 69 |
| Partial Action Factors for Platform Design | p. 70 |
| Collision Events | p. 75 |
| Vessel Collision | p. 75 |
| Fires and Explosions | p. 76 |
| Material Strength | p. 77 |
| Steel Groups | p. 77 |
| Steel Classes | p. 81 |
| References | p. 90 |
| Offshore Structure Platform Design | |
| Introduction | p. 93 |
| Preliminary Dimensions | p. 101 |
| Approximate Dimensions | p. 101 |
| Bracing System | p. 102 |
| Jacket Design | p. 104 |
| Structure Analysis | p. 107 |
| Global Structure Analysis | p. 108 |
| The Loads on Piles | p. 112 |
| Modeling Techniques | p. 113 |
| Dynamic Structure Analysis | p. 118 |
| In-place Analysis According to ISO 19902 | p. 123 |
| Cylinder Member Strength | p. 124 |
| Cylinder Member Strength Calculation According to ISO 19902 | p. 124 |
| Cylinder Member Strength Calculation | p. 134 |
| Tubular Joint Design | p. 142 |
| Simple Joint Calculation API RP2A (2007) | p. 143 |
| Joint Calculation According to API RP2A (2000) | p. 153 |
| Fatigue Analysis | p. 156 |
| Topside Design | p. 174 |
| Grating Design | p. 175 |
| Handrails, Walkways, Stairways and Ladders | p. 179 |
| Boat Landing Design | p. 180 |
| Boat Landing Calculation | p. 182 |
| Riser Guard Design | p. 185 |
| Boat Landing Design Using the Nonlinear Analysis Method | p. 186 |
| Boat Impact Methods | p. 187 |
| Tubular Member Denting Analysis | p. 188 |
| Riser Guard | p. 192 |
| On-Bottom Stability | p. 193 |
| Bridges | p. 196 |
| Crane Loads | p. 197 |
| Lift Installation Loads | p. 197 |
| Vortex-Induced Vibrations | p. 199 |
| Helideck Design | p. 200 |
| Structure Analysis and Design Quality Control | p. 206 |
| Bibliography | p. 211 |
| Geotechnical Data and Pile Design | |
| Introduction | p. 213 |
| Investigation Procedure | p. 213 |
| Performing an Offshore Investigation | p. 214 |
| Drilling Equipment and Method | p. 215 |
| Wire-Line Sampling Technique | p. 215 |
| Offshore Soil Investigation Problems | p. 216 |
| Soil Tests | p. 218 |
| In-Situ Testing | p. 221 |
| Cone Penetration Test (CPT) | p. 223 |
| Field Vane Test | p. 229 |
| Soil Properties | p. 231 |
| Strength | p. 233 |
| Soil Characterization | p. 236 |
| Pile Foundations | p. 237 |
| Pile Capacity for Axial Loads | p. 239 |
| Foundation Size | p. 244 |
| Axial Pile Performance | p. 245 |
| Pile Capacity Calculation Methods | p. 260 |
| Pile Capacity under Cyclic Loadings | p. 266 |
| Scour | p. 269 |
| Pile Wall Thickness | p. 271 |
| Design Pile Stresses | p. 272 |
| Stresses Due to Hammer Effect | p. 272 |
| Minimum Wall Thickness | p. 275 |
| Driving Shoe and Head | p. 276 |
| Pile Section Lengths | p. 277 |
| Pile Drivability Analysis | p. 278 |
| Evaluation of Soil Resistance to Driving (SRD) | p. 278 |
| Unit Shaft Resistance and Unit End Bearing for Uncemented Materials | p. 279 |
| Upper- and Lower-Bound SRD | p. 279 |
| Results of Wave Equation Analyses | p. 281 |
| Results of Drivability Calculations | p. 281 |
| Recommendations for Pile Installation | p. 281 |
| Soil Investigation Report | p. 284 |
| Bibliography | p. 287 |
| Fabrication and Installation | |
| Introduction | p. 293 |
| Construction Procedure | p. 293 |
| Engineering of Execution | p. 295 |
| Fabrication | p. 296 |
| Joint Fabrication | p. 302 |
| Fabrication Based on ISO | p. 303 |
| Jacket Assembly and Erection | p. 316 |
| Weight Control | p. 328 |
| Weight Calculation | p. 328 |
| Loads from Transportation, Launch and Lifting Operations | p. 335 |
| Lifting Procedure and Calculations | p. 336 |
| Lifting Calculations | p. 337 |
| Lifting Structural Calculations | p. 342 |
| Lift Point Design | p. 344 |
| Clearances | p. 344 |
| Lifting Calculation Report | p. 346 |
| Load-out Process | p. 355 |
| Transportation Process | p. 358 |
| Supply Boats | p. 358 |
| Anchor-handling Boats | p. 358 |
| Towboats | p. 358 |
| Towing | p. 359 |
| Drilling Vessels | p. 364 |
| Crew Boats | p. 364 |
| Barges | p. 365 |
| Crane Barges | p. 366 |
| Offshore Derrick Barges (Fully Revolving) | p. 367 |
| Jack-up Construction Barges | p. 368 |
| Transportation Loads | p. 370 |
| Launching and Upending Forces | p. 372 |
| Installation and Pile Handling | p. 376 |
| Bibliography | p. 381 |
| Corrosion Protection | |
| Introduction | p. 383 |
| Corrosion in Seawater | p. 385 |
| Corrosion of Steel in Seawater | p. 387 |
| Choice of System Type | p. 390 |
| Geometric Shape | p. 395 |
| Coatings and Corrosion Protection of Steel Structures | p. 397 |
| Corrosion Stresses Due to the Atmosphere, Water and Soil | p. 401 |
| Classification of Environments | p. 402 |
| Mechanical, Temperature and Combined Stresses | p. 404 |
| Cathodic Protection Design Considerations | p. 406 |
| Environmental Parameters | p. 406 |
| Design Criteria | p. 407 |
| Protective Potentials | p. 408 |
| Negative Impact of CP on the Structure Jacket | p. 408 |
| Galvanic Anode Materials Performance | p. 410 |
| CP Design Parameters | p. 411 |
| Design Calculation for CP System | p. 423 |
| Design Example | p. 434 |
| General Design Considerations | p. 437 |
| Anode Manufacture | p. 438 |
| Installation of Anodes | p. 439 |
| Allowable Tolerance for Anode Dimensions | p. 440 |
| Internal and External Inspection | p. 441 |
| Bibliography | p. 442 |
| Assessment of Existing Structures and Repairs | |
| Introduction | p. 445 |
| API RP2A: Historical Background | p. 446 |
| Environmental Loading Provisions | p. 446 |
| Regional Environmental Design Parameters | p. 452 |
| Member Resistance Calculation | p. 453 |
| Joint Strength Calculation | p. 453 |
| Fatigue | p. 454 |
| Pile Foundation Design | p. 455 |
| Den/HSE Guidance Notes for Fixed Offshore Design | p. 455 |
| Environmental Loading Provisions | p. 456 |
| Joint Strength Equations | p. 457 |
| Fatigue | p. 457 |
| Foundations | p. 457 |
| Definition of Design Condition | p. 458 |
| Currents | p. 458 |
| Wind | p. 458 |
| Waves | p. 459 |
| Deck Air Gap | p. 460 |
| Historical Review of Major North Sea Incidents | p. 460 |
| Historical Assessment of Environmental Loading Design Practice | p. 461 |
| Environmental Parameters for Structure Design | p. 461 |
| Fluid Loading Analysis | p. 462 |
| Development of API RP2A Member Resistance Equations | p. 463 |
| Allowable Stresses for Cylindrical Members | p. 464 |
| Axial Tension | p. 464 |
| Axial Compression | p. 464 |
| Bending | p. 465 |
| Shear | p. 466 |
| Hydrostatic Pressure | p. 467 |
| Combined Axial Tension and Bending | p. 468 |
| Combined Axial Compression and Bending | p. 468 |
| Combined Axial Tension and Hydrostatic Pressure | p. 469 |
| Combined Axial Compression and Hydrostatic Pressure | p. 469 |
| AISC Historical Background | p. 471 |
| Pile Design Historical Background | p. 471 |
| Effects of Changes in Tubular Member Design | p. 475 |
| Failure Due to Fire | p. 476 |
| Degree of Utilization | p. 478 |
| Tension Member Design by EC3 | p. 479 |
| Unrestrained Beams | p. 480 |
| Example: Strength Design for Steel Beams | p. 482 |
| Steel Column: Strength Design | p. 483 |
| Case Study: Deck Fire | p. 485 |
| Case Study: Platform Failure | p. 490 |
| Strength Reduction | p. 492 |
| Environmental Load Effect | p. 493 |
| Structure Assessment | p. 493 |
| Assessment of Platform | p. 497 |
| Nonlinear Structural Analysis in Ultimate Strength Design | p. 503 |
| Structural Modeling | p. 507 |
| Determining the Probability of Structural Failure | p. 510 |
| Offshore Structure Acceptance Criteria | p. 511 |
| Reliability Analysis | p. 512 |
| Software Requirement | p. 514 |
| Case Study: Platform Decommissioning | p. 518 |
| Scour Problem | p. 523 |
| Offshore Platform Repair | p. 523 |
| Deck Repair | p. 523 |
| Load Reduction | p. 525 |
| Jacket Repair | p. 527 |
| Dry Welding | p. 529 |
| Example: Platform Underwater Repair | p. 533 |
| Example: Platform "Shear Pups" Repair | p. 534 |
| Case Study: Underwater Repair for Platform Structure | p. 535 |
| Case Study: Platform Underwater Repair | p. 535 |
| Clamps | p. 536 |
| Example: Drilling Platform Stabilization after Hurricane Lili | p. 541 |
| Grouting | p. 542 |
| Composite Technology | p. 547 |
| Example: Using FRP | p. 549 |
| Case Study: Conductor Composite Repair | p. 550 |
| Fiberglass Access Decks | p. 550 |
| Fiberglass Mud Mats | p. 553 |
| Case Study: Repair of the Flare Jacket | p. 554 |
| Case Study: Repair of Bearing Support | p. 557 |
| Bibliography | p. 559 |
| Risk-Based inspection Technique | |
| Introduction | p. 563 |
| SIM Methodology | p. 564 |
| Qualitative Risk Assessment for Fleet Structures | p. 565 |
| Likelihood (Probability) Factors | p. 566 |
| Consequence Factors | p. 595 |
| Overall Risk Ranking | p. 602 |
| Underwater Inspection Plan | p. 606 |
| Underwater Inspection (According to API SIM 2005) | p. 606 |
| Baseline Underwater Inspection | p. 607 |
| Routine Underwater Inspection Scope of Work | p. 608 |
| Inspection Plan Based on ISO 9000 | p. 609 |
| Inspection and Repair Strategy | p. 613 |
| Flooded Member Inspection | p. 616 |
| Anode Retrofit Maintenance Program | p. 620 |
| Assessment Process | p. 620 |
| Collecting Data | p. 620 |
| Structure Assessment | p. 622 |
| Mitigation and Risk Reduction | p. 628 |
| Consequence Mitigation | p. 629 |
| Reduction of the Probability of Platform Failure | p. 630 |
| Occurrence of Member Failures with Time | p. 632 |
| Bibliography | p. 633 |
| Index | p. 635 |
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