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CFD Simulations of Marine Hydrodynamics
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CFD is an emerging area and is gaining popularity due to the availability of ever-increasing computational power. If used accurately, CFD methods may overcome the limitations of experimental and other numerical methods, in some respects. This Special Issue focuses on Computational Fluid Dynamics (CFD) Simulations of Marine Hydrodynamics with a specific focus on the applications of naval architecture and ocean engineering, and it comprises 24 original articles that advance state-of-the-art CFD applications in marine hydrodynamics and/or review the progress and future directions of research in this field. The published articles cover a wide range of subjects relevant to naval architecture and ocean engineering, including but not limited to; ship resistance and propulsion, seakeeping and maneuverability, hydrodynamics of marine renewable energy devices, validation and verification of computational fluid dynamics (CFD), EFD/CFD combined methods, fouling/coating hydrodynamics.
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Keywords
- actuator disk theory
- aerodynamic
- air resistance
- air–water two-phase flows
- best practice guidelines
- Bézier curves
- biofouling
- bulk carrier
- CAD
- centerboard
- CFD
- combined CFD/EFD methods
- computational fluid dynamic
- computational fluid dynamics
- computational fluid dynamics (CFD)
- container ship
- cross wave
- dispersion
- distributed propulsion
- Draft
- duct flow
- ducted turbine
- dynamic mode decomposition
- experimental fluid dynamic
- finite volume method
- form factor
- gamma transition criterion
- green water on deck
- heterogeneous hull roughness
- hull
- hull form optimization
- hydrodynamic characteristics
- Identification
- immersed boundary method
- Immersed Buoyant Platform
- inhibition mechanism
- interaction effect
- inverse distance weighted (IDW) method
- KCS
- longitudinal wake profile
- low Reynolds number
- marginal ice zone
- mesh deformation
- model tests
- NACA
- NACA66 hydrofoil
- near free surface
- nearfield wake pattern
- next generation subsea production system
- numerical friction line
- Numerical Simulation
- numerical ventilation
- NWT
- offshore crane
- oil tanker
- OpenFOAM
- optimal location
- overset
- overset mesh
- parallel-sided
- PH
- planing craft
- planing hull
- Polito Sailing Team (PST)
- porpoising instability
- radial basis function (RBF) method
- resistance correction
- restricted channel
- restricted water
- Reynolds Average Navier–Stokes (RANS)
- roughness effect
- rudder sectional forces
- rudder–propeller interactions
- sailboat
- Sailing
- scrubber
- sea ice
- seakeeping
- shallow water
- ship hydrodynamics
- ship motions
- ship performance
- ship resistance
- six degree of freedom (6DoF) motion
- slamming
- spectral analysis of free surfaces
- superstructure
- swallowing capacity
- systematic investigation
- Technology, engineering, agriculture
- Technology: general issues
- towing tank test
- trim
- turbulent Schmidt number
- twin side-hulls
- ultra-deep sea
- unsteady cavitation dynamics
- URANS
- validations and verification
- verification and validation
- vertical motions
- viscous damping
- VoF method
- volume of fluid (VOF), hydrodynamic
- wash water
- wave
- wave energy
- wave-payload interaction
- Wigley hull
- wind drag
Links
DOI: 10.3390/books978-3-0365-2336-1Editions