About this book:

This book provides a comprehensive, systems-oriented guide to the lifecycle of offshore structures and floating assets, from initial environment characterization to long-term maintenance. It bridges the gap between theoretical physics and practical engineering by detailing how metocean drivers—such as wind, waves, and currents—shape the design of diverse hull forms including semisubmersibles, spars, TLPs, and FPSOs. Readers will gain deep insights into hydrodynamic modeling, seakeeping performance, and the critical management of airgap and green water phenomena in harsh marine environments.

The text offers an in-depth exploration of the mission-critical systems that define floating assets, covering mooring fundamentals, stationkeeping through dynamic positioning, and the complex structural interfaces between hulls, risers, and umbilicals. Dedicated chapters on topside process systems, structural integration, and stability management highlight the multidisciplinary nature of designing "factories at sea." Special attention is given to the burgeoning field of floating wind foundations, providing the essential design considerations and array layout strategies required for the next generation of renewable energy.

Emphasizing safety and durability, the book concludes with rigorous treatments of fatigue and fracture mechanics, risk assessment methodologies like HAZID/HAZOP, and the implementation of Structural Health Monitoring (SHM). By consolidating the latest codes and standards from API, ISO, DNV, and ABS, it translates complex regulatory requirements into actionable design checks. This is an indispensable resource for engineers, naval architects, and operators seeking to deliver resilient, inspectable, and long-lasting floating systems for the global energy industry.

What You'll Find Inside:

• Comprehensive design principles for diverse offshore assets, including semi-submersibles, spars, Tension Leg Platforms (TLPs), and FPSOs.
• In-depth analysis of hydrodynamic modeling, metocean data characterization, and the physics of wave-structure interactions.
• Detailed guidance on stationkeeping technologies, covering catenary, taut-leg, and hybrid mooring systems alongside dynamic positioning (DP).
• Strategic frameworks for structural integrity, focusing on fatigue management, fracture mechanics, and the integration of topside process modules.
• Emerging trends in renewable energy, specifically the design, coupled analysis, and array layout of floating offshore wind foundations.

Who's It For:

This book is designed for offshore engineers, naval architects, and subsea specialists involved in the lifecycle of maritime energy assets. It serves as a vital resource for project managers and safety professionals who must navigate complex regulatory codes and risk assessment frameworks like HAZOP and Safety Cases. Additionally, it is highly beneficial for researchers and students transitioning from traditional oil and gas disciplines into the rapidly evolving floating offshore wind sector.