FUNDAMENTALS OF OFFSHORE ENGINEERING

Course Overview

This 5-day intensive program provides engineers, project managers, and offshore professionals with core knowledge of offshore oil & gas operations, marine systems, and subsea infrastructure. Participants will gain a solid foundation in offshore field development, structural design, and operational challenges through real-world case studies and practical exercises.

Course Objectives

Upon completion, participants will be able to:

• Understand offshore field development phases (exploration to decommissioning)
• Compare fixed vs. floating platform concepts (jackets, TLPs, semis, FPSOs)
• Analyze environmental loads (waves, currents, wind) on offshore structures
• Evaluate subsea production systems (trees, manifolds, flowlines)
• Apply marine construction techniques (pipelaying, heavy lifts)
• Identify key safety and regulatory requirements (API, DNV, ISO standards)
• Assess emerging technologies in offshore renewable energy

Who Should Attend

This course is essential for:

• New Offshore Engineers
• Project Engineers transitioning to offshore
• Subsea System Designers
• Marine Warranty Surveyors
• Oil & Gas Operations Staff
• Renewable Energy Professionals
• Graduate Engineers

Course Modules

Module 1: Offshore Industry Fundamentals

• Global offshore basins and reserves
• Field development stages (concept selection to decommissioning)
• Offshore vs. onshore project differences
• Key industry players and contractors

Module 2: Fixed Platform Engineering

• Jacket structure design (API RP 2A)
• Pile foundation systems
• Topside modules and layout
• Inspection and maintenance challenges

Module 3: Floating Systems

• FPSO design and mooring configurations
• Semi-submersible platform stability
• TLP and Spar platform concepts
• Stationkeeping systems (spread mooring vs. DP)

Module 4: Subsea Production Systems

• Christmas tree configurations
• Umbilicals, risers, flowlines (SURF)
• Pipeline end manifolds (PLEMs)
• Subsea processing technologies

Module 5: Marine Operations

• Heavy lift vessel capabilities
• Pipelaying methods (S-lay, J-lay)
• Diving and ROV operations
• Decommissioning techniques

Module 6: Environmental & Safety Considerations

• Metocean data interpretation
• Load calculations (100-year wave)
• Offshore safety case approach
• Emergency response planning

Module 7: Emerging Offshore Technologies

• Offshore wind turbine foundations
• Floating LNG (FLNG) developments
• Carbon capture and storage (CCS)
• Hydrogen production platforms