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Proceedings Papers
Volume 11A: Honoring Symposium for Professor Carlos Guedes Soares on Marine Technology and Ocean Engineering
Honoring Symposium for Professor Carlos Guedes Soares on Marine Technology and Ocean Engineering
Collision and Crashworthiness
A New Method in Identifying Critical Void Volume Fraction of GTN Model for NVA Mild Steel in Ship Collision and Grounding Scenario
OMAE 2018; V11AT12A003https://doi.org/10.1115/OMAE2018-77182
Topics:
Collisions (Physics)
,
Ships
,
Steel
,
Ductile fracture
,
Computer simulation
,
Damage
,
Hydrostatics
,
Stress
,
Accidents
,
Constitutive equations
Residual Longitudinal Strength of Damaged Box Girder Structures
OMAE 2018; V11AT12A005https://doi.org/10.1115/OMAE2018-77379
Topics:
Girders
,
Collisions (Physics)
,
Damage
,
Numerical analysis
,
Collapse
,
Deflection
,
Finite element analysis
,
Fracture (Materials)
,
Fracture (Process)
,
Hull
Numerical Analysis on the Response of Deck Plates Laterally Impacted by a Rectangular Indenter
OMAE 2018; V11AT12A006https://doi.org/10.1115/OMAE2018-78023
Topics:
Numerical analysis
,
Plates (structures)
,
Deformation
,
Ships
,
Stress
,
Deflection
,
Computer simulation
,
Dynamic response
,
Ice floes
,
Simulation
Grounding Experiments of a Ship Model in Water Tank
OMAE 2018; V11AT12A007https://doi.org/10.1115/OMAE2018-78049
Topics:
Ships
,
Water
,
Damage
,
Rocks
,
Damage assessment
,
Dynamics (Mechanics)
,
Testing
Ductile Fracture Modeling of DH36 Grade Steels
OMAE 2018; V11AT12A008https://doi.org/10.1115/OMAE2018-78681
Topics:
Ductile fracture
,
Modeling
,
Steel
,
Fracture (Materials)
,
Fracture (Process)
,
Coulombs
,
Finite element analysis
,
Plasticity
,
Stress
,
Damage
Numerical Investigation of the Collision Damage and Residual Strength of a Floating Bridge Girder
OMAE 2018; V11AT12A009https://doi.org/10.1115/OMAE2018-78728
Topics:
Bridges (Structures)
,
Collisions (Physics)
,
Damage
,
Girders
,
Ships
,
Clearances (Engineering)
,
Computer simulation
,
Design
,
Finite element analysis
,
Seas
Floater Dynamics and Hydrodynamics
Seakeeping Prediction of a Survey Vessel Operating in the Caspian Sea
OMAE 2018; V11AT12A012https://doi.org/10.1115/OMAE2018-77126
Topics:
Seas
,
Vessels
,
Waves
,
Electromagnetic scattering
,
Elongation
,
Experimental analysis
,
Fibers
,
Glass
,
Model basin
,
Naval architecture
An Analytical Model Study of a Flapping Hydrofoil for Wave Propulsion
OMAE 2018; V11AT12A013https://doi.org/10.1115/OMAE2018-77231
Topics:
Hydrofoil
,
Propulsion
,
Waves
,
Vehicles
,
Engineering instruments
,
Engineering simulation
,
Flow separation
,
Ocean waves
,
Physics
,
Simulation
Short Term Statistics of Hydroelastic Loads of a Containership in Head and Oblique Seas
OMAE 2018; V11AT12A015https://doi.org/10.1115/OMAE2018-77486
Topics:
Seas
,
Statistics
,
Stress
,
Ships
,
Waves
,
Hull
,
Containers
,
Design
,
Frequency response
,
Safety
Study on Wave Load Prediction and Fatigue Damage Analysis of River-Sea-Going Ship
OMAE 2018; V11AT12A016https://doi.org/10.1115/OMAE2018-77554
Topics:
Fatigue damage
,
Rivers
,
Seas
,
Ships
,
Stress
,
Waves
,
Containers
,
Fatigue
,
Electromagnetic scattering
,
Emission spectroscopy
Investigation of Bottom Slamming on Ships in Irregular Waves
OMAE 2018; V11AT12A018https://doi.org/10.1115/OMAE2018-77900
Topics:
Ships
,
Waves
,
Diffraction
,
Probability
,
Radiation (Physics)
,
Seas
,
Stress
,
Water
,
Hydrostatics
,
Liquefied natural gas
A Study on the Added Resistance Performance of Catamarans in Waves
OMAE 2018; V11AT12A019https://doi.org/10.1115/OMAE2018-78144
Topics:
Waves
,
Boundary element methods
,
Hull
,
Potential theory (Physics)
,
Ships
,
Steady state
Fully Coupled Analysis of Ship Motion and Sloshing Tanks in Regular and Irregular Waves
OMAE 2018; V11AT12A021https://doi.org/10.1115/OMAE2018-78378
Topics:
Ships
,
Sloshing
,
Waves
,
Computational fluid dynamics
,
Computation
,
Computer simulation
,
Excitation
,
Floating structures
,
Flow (Dynamics)
,
FPSO
Analysis of Catenary Mooring Systems Based on Truncated Mooring Experiments
OMAE 2018; V11AT12A024https://doi.org/10.1115/OMAE2018-78697
Topics:
Mooring
,
Damping
,
Vessels
,
Water
,
China
,
Dynamic analysis
,
Engineering prototypes
,
Seas
,
Semi-submersible offshore structures
,
Tension
Maritime Safety and Human Factors
Risk of Maritime Traffic in Coastal Waters
OMAE 2018; V11AT12A025https://doi.org/10.1115/OMAE2018-77312
Topics:
Risk
,
Shorelines
,
Traffic
,
Water
,
Accidents
,
Ships
,
Marine accidents
,
Modeling
,
Navigation
,
Probability
Technique for Early Consideration of Human Reliability (TECHR): Applying a Generic Model in an Oil Tanker Operation to Study Scenarios of Collision
OMAE 2018; V11AT12A028https://doi.org/10.1115/OMAE2018-78678
Topics:
Collisions (Physics)
,
Reliability
,
Tankers
,
Human factors
,
Accidents
,
Cycles
,
Design
,
Errors
,
Model development
,
Probability
Offshore Structures
Strength Assessment of Jacket Offshore Wind Turbine Support Structure Accounting for Rupture
OMAE 2018; V11AT12A029https://doi.org/10.1115/OMAE2018-77101
Topics:
Accounting
,
Offshore wind turbines
,
Rupture
,
Stress
,
Water
,
Load bearing capacity
,
Low cycle fatigue
,
Manufacturing
,
Redundancy (Engineering)
,
Waves
Drilling String Vibration: Modelling and Simulation
OMAE 2018; V11AT12A030https://doi.org/10.1115/OMAE2018-77685
Topics:
Drilling
,
Modeling
,
Simulation
,
String
,
Vibration
,
Drill strings
,
Bits (Tools)
,
Differential equations
,
Economics
,
Ocean engineering
Model Test With a Vertical Pipe to Elevate Cold Sea Water
OMAE 2018; V11AT12A032https://doi.org/10.1115/OMAE2018-77927
Topics:
Pipes
,
Seawater
,
Computer simulation
,
Seas
,
Ocean engineering
,
Petroleum
,
Water
,
Computer software
,
Cooling
,
Currents
Numerical Simulation of the Complex Impact Behavior of Float-Over Deck Installation Based on an Efficient Two-Body Heaving Impact Model
OMAE 2018; V11AT12A033https://doi.org/10.1115/OMAE2018-78029
Topics:
Bifurcation
,
Compression
,
Computer simulation
,
Excitation
,
Modeling
,
Nonlinear dynamics
,
Shock (Mechanics)
,
Springs
,
Stress
,
Vibration
Structural Configuration Selection and Optimization of 7th Generation Semi-Submersible Drilling Unit
OMAE 2018; V11AT12A035https://doi.org/10.1115/OMAE2018-78688
Topics:
Drilling
,
Optimization
,
Semi-submersible offshore structures
,
Design
,
Hull
,
Stress
,
Structural design
,
Dimensions
,
Fatigue
,
Reliability
Experimental Investigations of Hydroelastic Effects on Loads During Flat Water Entry
OMAE 2018; V11AT12A036https://doi.org/10.1115/OMAE2018-78692
Topics:
Stress
,
Water
,
Plating
,
Elasticity
Renewable Energy Offshore
Comparison of Mooring Solutions and Array Systems for Point Absorbing Wave Energy Devices
OMAE 2018; V11AT12A037https://doi.org/10.1115/OMAE2018-77062
Topics:
Mooring
,
Wave energy
,
Computer software
,
Design
,
Engineering prototypes
,
Fatigue life
,
Gravity (Force)
,
Life cycle assessment
,
Ocean energy
,
Polyester fabrics
The Spring-Like Air Compressibility Effect in OWC Wave Energy Converters: Hydro-, Thermo- and Aerodynamic Analyses
OMAE 2018; V11AT12A038https://doi.org/10.1115/OMAE2018-77096
Topics:
Compressibility
,
Springs
,
Wave energy converters
,
Turbines
,
Water
,
Waves
,
Absorption
,
Density
,
Flow (Dynamics)
,
Generators
A Systematic Design Approach of Gripper’s Hydraulic System Utilized in Offshore Wind Turbine Monopile Installation
OMAE 2018; V11AT12A039https://doi.org/10.1115/OMAE2018-77228
Topics:
Design
,
Hydraulic drive systems
,
Offshore wind turbines
,
Stress
,
Actuators
,
Dynamic models
,
Power systems (Machinery)
,
Reliability
,
Dynamic response
,
Fatigue
Study of a Hybrid Renewable Energy Platform: W2Power
OMAE 2018; V11AT12A040https://doi.org/10.1115/OMAE2018-77690
Experimental Study on the Wave Loads on Monopile and Jacket Type Support of Offshore Wind Turbines
OMAE 2018; V11AT12A041https://doi.org/10.1115/OMAE2018-77715
Topics:
Offshore wind turbines
,
Stress
,
Waves
,
Wave forces
,
Wind turbines
,
Cylinders
,
Design
,
Drag (Fluid dynamics)
,
Inertia (Mechanics)
,
Morison equation
On the Array of Wave Energy Converters: The Case of the Coaxial-Duct OWC
OMAE 2018; V11AT12A042https://doi.org/10.1115/OMAE2018-78022
Topics:
Ducts
,
Wave energy converters
,
Water
,
Buoys
,
Ocean engineering
Scale Effects on Heave Plates for Floating Offshore Wind Turbines
Ana Bezunartea-Barrio, Sergio Fernandez-Ruano, Adolfo Maron-Loureiro, Enrique Molinelli-Fernandez, Francisco Moreno-Buron, Julio Oria-Escudero, José Rios-Tubio, Cristina Soriano-Gomez, Alvaro Valea-Peces, Carlos Lopez-Pavon, Antonio Souto-Iglesias
OMAE 2018; V11AT12A043https://doi.org/10.1115/OMAE2018-78062
A Summary of the Recent Work at NTNU on Marine Operations Related to Installation of Offshore Wind Turbines
OMAE 2018; V11AT12A044https://doi.org/10.1115/OMAE2018-78334
Topics:
Offshore wind turbines
,
Blades
,
Damage
,
Vessels
,
Wind turbines
,
Dynamic response
,
Rotors
,
Composite materials
,
Cranes
,
Engineering simulation
Fully-Coupled Aero-Hydrodynamic Simulation of Floating Offshore Wind Turbines by Different Simulation Methods
OMAE 2018; V11AT12A045https://doi.org/10.1115/OMAE2018-78368
Topics:
Offshore wind turbines
,
Simulation
,
Actuators
,
Pressure
,
Stress
,
Algorithms
,
Blades
,
Computation
,
Computational fluid dynamics
,
Design
Experimental Study on Hydrodynamics of Hybrid Deep-V Monohull With Different Built-Up Appendages
OMAE 2018; V11AT12A046https://doi.org/10.1115/OMAE2018-78540
Topics:
Hydrodynamics
,
Seas
,
Vessels
,
Waves
Numerical and Experimental Analysis of a Hybrid Wind-Wave Offshore Floating Platform’s Hull
Thiago S. Hallak, José F. Gaspar, Mojtaba Kamarlouei, Miguel Calvário, Mário J. G. C. Mendes, Florent Thiebaut, C. Guedes Soares
OMAE 2018; V11AT12A047https://doi.org/10.1115/OMAE2018-78744
Topics:
Experimental analysis
,
Hull
,
Ocean engineering
,
Wind waves
,
Wave energy
,
Stability
,
Wind
,
Semi-submersible offshore structures
,
Wave energy converters
,
Waves
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