Practical engineering management of offshore oil and gas platforms /

"Practical Engineering Management of Offshore Oil and Gas Platforms" delivers the first must-have content to the multiple engineering managers and clients devoted to the design, equipment, and operations of offshore oil and gas platforms. Concepts explaining how to interact with the variou...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Samie, Naeim Nouri (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge, MA : Gulf Professional Publishing is an imprint of Elsevier, 2016.
Temas:
Drilling platforms.
Plateformes de forage.
offshore drilling platforms.
TECHNOLOGY & ENGINEERING > Hydraulics.
Drilling platforms
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; PRACTICAL ENGINEERING MANAGEMENT OF OFFSHORE OIL AND GAS PLATFORMS; PRACTICAL ENGINEERING MANAGEMENT OF OFFSHORE OIL AND GAS PLATFORMS; Copyright; DEDICATION; CONTENTS; PREFACE; ABBREVIATIONS; 1
  • Engineering Design of Offshore Platforms; 1
  • Introduction to Offshore Platforms; 1.1 OFFSHORE PLATFORMS HISTORY; 1.2 OIL AND GAS OFFSHORE PLATFORM TYPES; 1.3 IMPORTANCE OF ENGINEERING; 1.3.1 Importance of Engineering in Procurement; 1.3.2 Importance of Engineering in Fabrication; 1.3.3 Importance of Engineering in Operations; 1.4 ENGINEERING PRACTICE.
  • 2
  • Disciplines Involved in Offshore Platform Design2.1 ARCHITECTURAL; 2.1.1 Architectural Specifications; 2.1.2 Architectural Layouts; A. Equipment Area; B. Working Area/Offices; C. Catering Area; D. Recreation and Fitness Area; E. Living Area; A. Maximum Stress; B. Maximum Deflection; 2.1.3 Architectural Interfaces; 2.2 CONTROL; A. Typical Signals in DCS; B. Typical Signals in ESD Package; C. Typical Signals in FGS; 2.2.1 Control Design Basis; 2.2.2 Control Philosophy; 2.2.3 Control Block Diagram; 2.3 ELECTRICAL; 2.3.1 Hazardous Area Classification Drawings; 2.3.2 Black Start Philosophy.
  • 2.3.3 Single-Line Diagram2.3.4 Electrical Load List; 2.3.5 Generator Sizing; 2.3.6 Heat Tracing; 2.3.7 Cables and Cable Routes; 2.3.8 Contingency/Sparing; 2.4 HVAC; 2.4.1 Ventilation/Natural Air Change; 2.4.2 HVAC Philosophy/Calculations; 2.4.3 HVAC Drawings; 2.5 INSTRUMENT; 2.5.1 Instrument Items; 2.5.2 Loop Diagram; 2.5.3 Instrument Cables and Cable Route Equipment; 2.5.4 Instrument Tubing; 2.6 MECHANICAL; 2.6.1 Data Sheets; 2.6.2 Specifications; 2.6.3 Material Requisitions; 2.6.4 Interface With Other Disciplines; 2.7 PIPING; 2.7.1 Complex/Platform Orientation; 2.7.2 Equipment Layout.
  • 2.7.3 3D-Model Preparation/Review2.7.4 Material Selection Study; 2.7.5 Piping Stress Analysis; 2.7.6 Isometric Drawings; 2.7.7 Piping MTO and Contingency; 2.8 PROCESS; 2.8.1 Process Design Basis; 2.8.2 Operation Philosophy; 2.8.3 Heat and Material Balance; 2.8.4 Process Flow Diagram; 2.8.5 Piping and Instrumentation Diagram; 2.8.6 Utility Flow Diagram; 2.8.7 Flare Radiation Study; 2.8.8 Sparing Philosophy; 2.9 SAFETY; 2.9.1 Hazard Identification; 2.9.2 Hazard and Operability; 2.9.3 Passive Protection; 2.9.4 Fire, Smoke, and Gas Dispersion Study; 2.9.5 Explosion Overpressure Study.
  • 2.10 STRUCTURE2.10.1 Jacket Analysis; Fabrication; Load Out; Transportation; Installation; 2.10.2 Topside Analysis; 2.10.2.1 Piping/Packages/Vessels Loads; 2.10.2.2 Blast Design; 2.10.2.3 Temperature Impact; 2.10.2.4 Topside Fabrication; 2.10.2.5 Topside Load Out; 2.10.2.6 Topside Installation; 2.10.3 Hurricane Impact; A. Forecasting Method; B. Appropriate Return Period; C. Platform Configuration; D. Member Response; E. Other Disciplines ; 2.10.4 Installation Interface; A. Pile; B. Mud Mat; C. Conductor Guide; D. Jacket Design; E. Boat Landing and Barge Bumper; F. Temporary Supports.

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