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Proceedings of the 2003 International Symposium on Deepwater Mooring Systems: Concepts, Design, Analysis and Materials, held in Houston, Texas, October 2-3, 2003. Sponsored by the Offshore Technology Research Center; Coasts, Oceans, Ports, and Rivers Institute of ASCE. This collection contains 24 papers reflecting recent advances made in deepwater mooring systems. Offshore oil and gas drilling and production activities are being pushed into deeper and deeper waters. To reduce cost while achieving high safety standards, many innovative concepts for floating structures are being developed and deployed. Topics include: state of the art of innovative concepts; experimental, analytical and numerical tools; new materials used in designing a deepwater mooring system new models for a systems interactions with the floating structure, anchor foundation, and accompanying riser system. Ocean engineering professionals will find this volume a valuable reference.
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Wind turbines. --- Offshore structures. --- Deep-sea moorings. --- Anchors, Sea.
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Ocean temperature --- Oceanographic buoys. --- Deep-sea moorings. --- Measurement.
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Oceanography --- Deep-sea moorings. --- Ocean engineering. --- Ocean currents --- Oceanographic buoys. --- Research --- Instruments. --- Measurement --- Instruments --- Design.
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Wind turbines --- Offshore electric power plants --- Deep-sea moorings. --- Computer simulation. --- Research.
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Wind turbines --- Offshore electric power plants --- Deep-sea moorings --- Computer simulation --- Research
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Mooring of ships. --- Deep-sea moorings. --- Moorings, Deep-sea --- Oceanographic research stations --- Anchorage --- Berthing of ships --- Ship mooring --- Ships --- Docks --- Harbors --- Mooring
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"Poro-elastic theory can be widely applied to numerous engineering and scientific problems involving multi-phase media. This book for graduate students and researchers presents the basic mechanics of poro-elastic theory and explores in detail three particular applications: solute and contaminant transport in compacted clay liner systems with consolidation effects; groundwater table fluctuations in coastal aquifers resulting from tidal dynamics; and basic seabed mechanisms under dynamic loading, affecting marine infrastructures. Most existing books in the field focus on the mechanics of porous flow with applications in environmental science. Open Access from http://www.taylorfrancis.com"--
Multiphase flow. --- Porous materials --- Elastic analysis (Engineering) --- Transport theory. --- Ocean bottom. --- Soil-structure interaction. --- Offshore structures --- Fluid dynamics. --- Anchorage. --- Porous media --- Materials --- Porosity --- Anchorage --- Deep-sea moorings --- Flow, Multi-phase --- Flow, Multicomponent --- Flow, Multiphase --- Flow, Polyphase --- Multi-phase flow --- Multicomponent flow --- Polyphase flow --- Fluid dynamics --- Structure-soil interaction --- Soil dynamics --- Structural dynamics --- Bottom of the ocean --- Floor of the ocean --- Ocean floor --- Sea bed --- Sea floor --- Seafloor --- Seabed --- Subsoil of the ocean floor --- Submarine topography --- Boltzmann transport equation --- Transport phenomena --- Mathematical physics --- Particles (Nuclear physics) --- Radiation --- Statistical mechanics --- Analysis, Elastic --- Elastic analysis (Theory of structures) --- Structural analysis (Engineering)
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