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Coastal Geohazard and Offshore Geotechnics



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Autore: Jeng Dong-Sheng Visualizza persona
Titolo: Coastal Geohazard and Offshore Geotechnics Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (348 p.)
Soggetto topico: Technology: general issues
Soggetto non controllato: wave motion
offshore deposits
seabed response
FEM
pore pressure
wave-current-seabed interaction
RANS equations
k-ε model
current velocity
seabed liquefaction
liquefaction
lateral displacement
response surface method (RSM)
artificial neural network (ANN)
wave action
silty sand
seepage flow
soil erosion
pore-pressure accumulation
three-phase soil model
immersed tunnel
trench
numerical study
porous seabed
pumping well test
groundwater fluctuation
stratum deformation
micro-confined aquifer
Reynolds-Averaged Navier-Stokesequations
buried pipeline
k-ε turbulence model
oscillatory liquefaction
wave-soil-pipeline interactions
meshfree model
local radial basis functions collocation method
hydrate-bearing sediments
damage statistical constitutive model
multi-field coupling
wellbore stability
bridge scour
identification
ambient vibration
field application
natural frequency
mode shape
superstructure
cable-stayed bridge
Principal stress rotation
dynamic loading
wave (current)-induced soil response
open-ended pile
soil plug
offshore wind turbines
lateral cyclic loading
model test
discrete element simulation
rock-socketed piles
monopiles
impedances
dynamic responses
buoyancy
bottom-supported foundation
field test
numerical analysis
giant submarine landslides
shelf break
South China Sea
Himalayan orogeny
repeated submarine landslides
coastal-embankment slope
stability
unsaturated soil
multilayered
matric suction
random searching algorithm
rainfall infiltration
scour
soft clay
monopile
stress history
hypoplastic model
submarine pipeline
dense seabed foundation
seismic dynamics
resonance of submarine pipeline
FSSI-CAS 2D
Persona (resp. second.): ZhangJisheng
KircaV.S. Ozgur
JengDong-Sheng
Sommario/riassunto: With rapid developments being made in the exploration of marine resources, coastal geohazard and offshore geotechnics have attracted a great deal of attention from coastal geotechnical engineers, with significant progress being made in recent years. Due to the complicated nature of marine environmnets, there are numerous natural marine geohazard preset throughout the world’s marine areas, e.g., the South China Sea. In addition, damage to offshore infrastructure (e.g., monopiles, bridge piers, etc.) and their supporting installations (pipelines, power transmission cables, etc.) has occurred in the last decades. A better understanding of the fundamental mechanisms and soil behavior of the seabed in marine environments will help engineers in the design and planning processes of coastal geotechnical engineering projects. The purpose of this book is to present the recent advances made in the field of coastal geohazards and offshore geotechnics. The book will provide researchers with information reagrding the recent developments in the field, and possible future developments. The book is composed of eighteen papers, covering three main themes: (1) the mechanisms of fluid–seabed interactions and the instability associated with seabeds when they are under dynamic loading (papers 1–5); (2) evaluation of the stability of marine infrastructure, including pipelines (papers 6–8), piled foundation and bridge piers (papers 9–12), submarine tunnels (paper 13), and other supported foundations (paper 14); and (3) coastal geohazards, including submarine landslides and slope stability (papers 15–16) and other geohazard issues (papers 17–18). The editors hope that this book will functoin as a guide for researchers, scientists, and scholars, as well as practitioners of coastal and offshore engineering.
Titolo autorizzato: Coastal Geohazard and Offshore Geotechnics  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557525203321
Lo trovi qui: Univ. Federico II
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