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Full Description
This book summarizes the author's 18 years research and engineering experience at universities, classification societies and design offices. The intention is to develop this book as a textbook for graduate students, as it includes design guidelines for engineers and references for researchers. It is hoped that this book may also be used to aid the design of offshore structures as it details applied mechanics and design/engineering. The book has been used in a teaching course for M.Sc. students at Stavanger University College and IBC training course for engineers in pipeline and riser industries since August 1998. Its preparation was motivated by recent developments in research and engineering and new design codes. It aims to educate more pipeline engineers and provide materials for on-job training on the use of new design codes and guides.
Contents
Wall-thickness and material grade selection; buckling/collapse of deepwater metallic pipes; limit-state based strength design; soil and pipe interaction; hydrodynamics around pipes; finite element analysis of in-situ behaviour; on-bottom stability; vortex-induced vibrations (VIV) and fatigue; forces model and wave fatigue; trawl impact, pullover and hooking loads; installation design; reliability-based strength design of pipelines; remaining strength of corroded pipes; residual strength of dented pipes with cracks; risk analysis applied to subsea pipeline engineering; route optimization, tie-in and protection; pipeline inspection, maintenance and repair; use of high strength steel; design of deepwater risers; design codes and criteria for risers; fatigue of risers; piping systems; pipe-in-pipe and bundle systems; LCC modelling as a decision making tool in pipeline design; design examples.
