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Waves and Ocean Structures



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Autore: Lee Jaw-Fang Visualizza persona
Titolo: Waves and Ocean Structures Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (290 p.)
Soggetto topico: Technology: general issues
Soggetto non controllato: deep-sea riser
top tension
vortex-induced vibration
numerical simulation
experiment
light buoy
motion performance in waves
potential-based simulations
viscous damping coefficients
free decay tests
computational fluid dynamics
analytic solution
water waves
underwater floating structure
mooring forces
interaction
floating platform
fishnet mesh size
frequency-domain
time-domain
nonlinear waves
BEM
solitary wave
submerged breakwater
slotted barrier
PIV
RANS model
motion reduction control
renewable energy
TLD
offshore wind turbine
structural safety
breakwater design
wave energy
wave power converting system
caisson breakwater application
eigenfunction matching method
oblique wave
Bragg reflection
step approximation
surface-piercing structure
periodic bottom
surface waves
wave breaker
elastic plate
power prediction
capacity factor
actuator disk
wind farm
heave plate
free surface effect
floating offshore wind turbine
hydrodynamic coefficients
added mass
damping coefficient
forced oscillation in waves
Keulegan Carpenter number
stability
ocean current power system
surface type
buoyance platform
mooring foundation
particle image velocimetry
submerged obstacle
undulating breakwater
rectangular breakwater
vortex energy
offshore wind power
template structure system
oscillating water column
typhoon
gust
extreme wind
aerodynamic load
Persona (resp. second.): YangRay-Yeng
LeeJaw-Fang
Sommario/riassunto: Ocean Structures subjected to actions of ocean waves require safety inspection as they protect human environment and everyday lives. Increasing uses of ocean environment have brought active research activities continuously. The newly developed technology of ocean energy even pushed the related needs forward one more step. This Special Issue focuses on Analysis of Interactions between wave structures and ocean waves. Although ocean structures may cover various practical and/or conceptual types, we hope in the years to come, the state-of-the-art applications in wave and structure interactions and/or progress review and future developments could be included. There are fifteen papers published in the Special issue. A brief description includes: Lee et al. [1] presented a concept of a water column type wave power converter. Li et al. [2] considered submerged breakwaters. Lin et al. [3] studied an ocean current turbine system. Thiagarajan and Moreno [4] investigated oscillating heave plates in wind turbines. Chiang et al. [5] proposed an actuator disk model. Tseng et al. [6] investigated Bragg reflections of periodic surface-piercing submerged breakwaters. Lee et al. [7] analyzed caisson structures with a wave power conversion system installed. Yeh et al. [8] reported motion reduction in offshore wind turbines. Wu and Hsiao [9] considered submerged slotted barriers. Tang et al. [10] studied floating platforms with fishnets. Chen et al. [11] calculated mooring drags of underwater floating structures with moorings. Jeong et al. [12] estimated the motion performance of light buoys using ecofriendly and lightweight materials. Zhang et al. [13] considered vibrations of deep-sea risers. On the other hand, Shugan et al. [14] studied the effects of plastic coating on sea surfaces.
Titolo autorizzato: Waves and Ocean Structures  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557337503321
Lo trovi qui: Univ. Federico II
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