Description
Advanced Marine Structures
Author: Chandrasekaran Srinivasan
Language: EnglishSubjects for Advanced Marine Structures:
Keywords
Marine Structures; Tension Leg Platform; Offshore Structures; Hot Spot Stress; Environmental Loads; Limit State Function; Ultimate Load Design; Collapse Load; Fluid-Structure Interaction; Plastic Hinges; Reliability; Maximum Shear Stress Theory; Structural Fatigue; Spectral Fatigue Analysis; Fracture; Outer Cylinder; Floating Platforms; Stress Range; Analysis; Axial Load; Wave Loads; Effective Stress Range; Failure Theories; True Collapse Load; Water Waver Interaction; Shear Center; Crack Propagation; Kinematic Theorem; Fatigue Damage; Perforated Cylinders; Gravity Platforms; Bending Moment Distribution; Offshore Platforms; Maximum Principal Stress Theory; Crack Growth; Elastic Buckling Stress; FSI
· 15.6x23.4 cm · Hardback
Description
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Due in part to a growing demand for offshore oil and gas exploration, the development of marine structures that initially started onshore is now moving into deeper offshore areas. Designers are discovering a need to revisit basic concepts as they anticipate the response behavior of marine structures to increased water depths. Providing a simplified approach to the subject, Advanced Marine Structures explains the fundamentals and advanced concepts of marine architecture introduces various types of offshore platforms, and outlines the different stages of marine structure analysis and design.
Written from a structural engineering perspective, this book focuses on structures constructed for offshore oil and gas exploration, various environmental loads, ultimate load design, fluid-structure interaction, fatigue, and fracture. It also offers detailed descriptions of different types of structural forms, functions and limitations of offshore platforms and explains how different loads act on each. In addition, the text incorporates examples and application problems to illustrate the use of experimental, numerical, and analytical studies in the design and development of marine structures, and reviews relevant literature on wave interaction and porous cylinders.
This book:
- Focuses on structural reliability
- Deliberates on fracture and fatigue and examines their application in marine structures
- Introduces ideas on the retrofit and renovation of marine structures
- Examines the strength analysis of offshore structures and structural members
Advanced Marine Structures
Offshore Structures and Environmental Loads. Ultimate Load Design. Fluid-Structure Interaction. Reliability of Marine Structures. Fatigue and Fracture. References.
Srinivasan Chandrasekaran is a professor of the Department of Ocean Engineering, Indian Institute of Technology Madras, Chennai. He has more than 23 years of teaching, research, and industrial experience. Chandrasekaran has also been a visiting fellow by invitation of the Ministry of Italian University Research to the University of Naples Federico II, Italy (MiUR Fellow), during which time he conducted research on advanced nonlinear modeling and analysis of structures under different environmental loads with experimental verifications. In addition, he has published approximately 130 research papers in international journals and refereed conferences, and authored textbooks on civil and ocean engineering.