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Volume 1: Offshore Technology; Offshore Geotechnics
Offshore Technology
CFD Modeling Practice and Verification
Thorough Verification and Validation of CFD Prediction of FPSO Wind Load for Confident Applications
OMAE 2019; V001T01A002https://doi.org/10.1115/OMAE2019-95018
Topics:
Computational fluid dynamics
,
FPSO
,
Stress
,
Wind
,
Modeling
,
Boundary-value problems
,
Ceilings
,
Computer simulation
,
Engineering simulation
,
Geometry
Dynamic Response of Monopile Wind Turbine in Large Waves
OMAE 2019; V001T01A004https://doi.org/10.1115/OMAE2019-95288
Topics:
Dynamic response
,
Waves
,
Wind turbines
,
Computer simulation
,
Quality control
,
Stress
,
Structural response analysis
Numerical Investigation of Scour Around Subsea Pipelines Near the Seabed
OMAE 2019; V001T01A005https://doi.org/10.1115/OMAE2019-96069
Topics:
Pipelines
,
Seabed
,
Underwater pipelines
,
Simulation
,
Stress
,
Collisions (Physics)
,
Flow (Dynamics)
,
Fluids
,
Kinetic theory
,
Particulate matter
Numerical Investigation for Vortex-Induced Vibrations of Steel-Lazy-Wave-Risers: Part I — CFD Validation Against Forced Oscillation Model Test
OMAE 2019; V001T01A006https://doi.org/10.1115/OMAE2019-96401
Topics:
Computational fluid dynamics
,
Oscillations
,
Pipeline risers
,
Risers (Casting)
,
Steel
,
Vortex-induced vibration
,
Waves
,
Buoyancy
,
Simulation
,
Computer software
Design and Analysis
How Emulation Improves Offshore Operations
OMAE 2019; V001T01A010https://doi.org/10.1115/OMAE2019-95178
Numerical Solutions and Model Test Design for Anti-Typhoon Drilling Riser
OMAE 2019; V001T01A011https://doi.org/10.1115/OMAE2019-95196
Topics:
Design
,
Pipeline risers
,
Buoyancy
,
Drilling
,
Underwater drilling
,
Emergencies
,
Ocean engineering
,
Stress
,
String
,
Water
Calculation of the Dynamic Positioning Capability of an Offshore Wind Farm Vessel During the Jack-Up Process in the Early Design Stage
OMAE 2019; V001T01A012https://doi.org/10.1115/OMAE2019-95248
Topics:
Design
,
Dynamic positioning systems
,
Jack-up drilling rigs
,
Ocean engineering
,
Vessels
,
Wind farms
The Use of Ensemble Forecast in Defining Offshore Installation Operability: A Case Study on Umbilical Shore Float-In Operations
OMAE 2019; V001T01A017https://doi.org/10.1115/OMAE2019-96137
Topics:
Cables
,
Engineering simulation
,
North Sea
,
Ocean engineering
,
Offshore installations
,
Risk
,
Safety
,
Seas
,
Simulation
,
Storms
Numerical Investigation of Wave-Frequency Pontoon Responses of a Floating Bridge Based on Model Test Results
OMAE 2019; V001T01A019https://doi.org/10.1115/OMAE2019-96545
Topics:
Bridges (Structures)
,
Wave frequency
,
Waves
,
Computational fluid dynamics
,
Drag (Fluid dynamics)
,
Girders
,
Stress
,
Damping
,
Excitation
,
Flanges
Efficient Anchoring System for FPSO in Arbitrary Waters
Jairo B. de Araujo, Antonio C. Fernandes, Joel S. Sales, Jr., Mario Jorge C. dos Santos, Ana Clara S. Thurler
OMAE 2019; V001T01A020https://doi.org/10.1115/OMAE2019-96575
Topics:
FPSO
,
Water
,
Ocean engineering
,
Polyester fabrics
,
Ropes
,
Buoys
,
Chain
,
Flow (Dynamics)
,
Mooring
,
Pipeline risers
Lazy Wave Riser Design in High Current and Mild Sour Environment
OMAE 2019; V001T01A021https://doi.org/10.1115/OMAE2019-96588
Topics:
Design
,
Fatigue
,
Pipeline risers
,
Risers (Casting)
,
Waves
FLNG Technology
Hydrodynamics
Behaviour of a Suspended Wellbay Module and Flare Tower in Waves During Transit to Shore
OMAE 2019; V001T01A023https://doi.org/10.1115/OMAE2019-95001
Topics:
Waves
,
Cranes
,
Vessels
,
Crane barges
,
Damping
,
Frequency-domain analysis
,
Noise (Sound)
,
North Sea
,
Semi-submersible offshore structures
,
Time series
Slamming Force Contribution due to Plunging Breakers on Circular, Square and Diamond Cylinders
OMAE 2019; V001T01A025https://doi.org/10.1115/OMAE2019-95126
Topics:
Air entrainment
,
Cylinders
,
Design
,
Diamonds
,
Ocean engineering
,
Offshore structures
,
Shapes
,
Stress
,
Waves
,
Wind waves
The Effect of Aspect Ratio on the Drag of Bare Cylinders
OMAE 2019; V001T01A028https://doi.org/10.1115/OMAE2019-96431
Topics:
Cylinders
,
Drag (Fluid dynamics)
,
Vortex-induced vibration
Hydrodynamic Analysis of Deep-Water Fish Cage in Waves Based on Two Different Methods
OMAE 2019; V001T01A029https://doi.org/10.1115/OMAE2019-96486
Topics:
Deformation
,
Water
,
Waves
,
Mooring
,
Buoys
,
Displacement
,
Dynamic response
,
Steel
,
Tension
,
Wave forces
An Iterative Updating Method for Dynamic Responses of a Floating Platform Under Action of Internal Solitary Waves
OMAE 2019; V001T01A030https://doi.org/10.1115/OMAE2019-96553
Topics:
Dynamic response
,
Waves
,
China
,
Floating structures
,
Fluids
,
Ocean engineering
,
Seas
,
American Petroleum Institute
,
Design
,
Engineers
Offshore Platforms
Improved Design of Next Generation Hull-Platform “noah-FPSO Hull”
OMAE 2019; V001T01A033https://doi.org/10.1115/OMAE2019-95269
Topics:
Design
,
FPSO
,
Hull
,
Construction
Global Performance Analysis of Deep Draft Semi-Submersible Designed for Standard GOM Application
OMAE 2019; V001T01A034https://doi.org/10.1115/OMAE2019-95272
Topics:
Semi-submersible offshore structures
,
Hull
,
Design
,
Mooring
,
Weight (Mass)
,
Stability
,
Time-domain analysis
,
Waves
,
Cross section (Physics)
,
Damage
Baseline Design of the Deep Turbine Installation-Floating, a New Floating Wind Concept
OMAE 2019; V001T01A035https://doi.org/10.1115/OMAE2019-95477
Topics:
Design
,
Turbines
,
Wind
,
Construction
,
Computer software
,
Stress
,
Buoys
,
Dimensions
,
Hydrostatics
,
Maintenance
Punch-Through Structural Analysis of Jack-Up Rigs During Preloading of the Foundations
OMAE 2019; V001T01A036https://doi.org/10.1115/OMAE2019-95537
Topics:
Jack-up drilling rigs
,
Structural analysis
,
Hull
,
Soil
,
Water
,
Buoyancy
,
Springs
,
Cantilevers
,
Center of mass
,
Gravity (Force)
Effect of Wind Turbulence on Extreme Load Analysis of an Offshore Wind Turbine
OMAE 2019; V001T01A038https://doi.org/10.1115/OMAE2019-95634
Topics:
Offshore wind turbines
,
Stress
,
Turbulence
,
Wind
,
Dynamic response
,
Wind velocity
,
Engineering simulation
,
Simulation
,
Structural design
,
Uncertainty
First in Place Replacement of a TLP Top Tendon Connector Flex Bearing
OMAE 2019; V001T01A040https://doi.org/10.1115/OMAE2019-96232
Topics:
Bearings
,
Tendons
,
Tension-leg platforms
Detection of Mooring Line Failure of a Spread-Moored FPSO: Part 1 — Development of an Artificial Neural Network Based Model
Djoni E. Sidarta, Ho-Joon Lim, Johyun Kyoung, Nicolas Tcherniguin, Timothee Lefebvre, Jim O’Sullivan
OMAE 2019; V001T01A042https://doi.org/10.1115/OMAE2019-96288
Topics:
Artificial neural networks
,
Failure
,
FPSO
,
Mooring
,
Offshore platforms
,
Computer simulation
,
Vessels
,
Algorithms
,
Artificial intelligence
,
Damage
Direct Time Domain Simulations for a FPSO Tandem Offloading Operation
OMAE 2019; V001T01A045https://doi.org/10.1115/OMAE2019-96638
Topics:
FPSO
,
Simulation
,
Flow (Dynamics)
,
Parallel processing
,
Service life (Equipment)
,
Simulation results
,
Stress
,
Tankers
Effects of Cap Bottom Elevation on Wave Loads on the Piles Under the Cap
OMAE 2019; V001T01A047https://doi.org/10.1115/OMAE2019-96777
Topics:
Bridges (Structures)
,
Pile caps
,
Stress
,
Waves
,
Wind farms
Station Keeping
Snap Load Induced by Slack-Taut Process in a Taut Mooring Line
OMAE 2019; V001T01A048https://doi.org/10.1115/OMAE2019-95016
Topics:
Mooring
,
Stress
,
Tension
,
Excitation
,
Design
,
Finite element analysis
,
Floating structures
,
Spectra (Spectroscopy)
QUAD Lift: Enabling Lifting of Larger Integrated Topsides
OMAE 2019; V001T01A049https://doi.org/10.1115/OMAE2019-95375
Topics:
Crane barges
,
Cranes
,
Dimensions
,
Dynamic positioning systems
,
Dynamics (Mechanics)
,
Human factors
,
Ocean engineering
,
Ships
,
Simulation
,
Stability
Spring-Dashpot Simulations of Polyester Ropes: Validation of the Syrope Model
OMAE 2019; V001T01A050https://doi.org/10.1115/OMAE2019-95469
Topics:
Engineering simulation
,
Mooring
,
Polyester fabrics
,
Ropes
,
Shock absorbers
,
Simulation
,
Springs
Three-Dimensional Dynamic Analysis Method of Multi-Component Mooring Lines
OMAE 2019; V001T01A052https://doi.org/10.1115/OMAE2019-96056
Topics:
Dynamic analysis
,
Mooring
A New Fully-Detailed Finite Element Model of Spiral Strand Wire Ropes for Fatigue Life Estimate of a Mooring Line
Federico Bussolati, Martin Guiton, Pierre-Alain Guidault, Yann Poirette, Michael Martinez, Olivier Allix
OMAE 2019; V001T01A054https://doi.org/10.1115/OMAE2019-96165
Topics:
Fatigue life
,
Finite element model
,
Mooring
,
Ropes
,
Wire
,
Stress
,
Fatigue
,
Tension
,
Computer simulation
,
Computer software
Realistic Adaptive DP Controller for Flotel Operating in Side-by-Side Configuration With FPSO
OMAE 2019; V001T01A057https://doi.org/10.1115/OMAE2019-96577
Topics:
Control equipment
,
FPSO
,
Oceans
,
Seas
,
Sensors
,
Vessels
,
Artificial neural networks
,
Dynamic positioning systems
,
Adaptive control
,
Delays
Learning From Dynamic Positioning Events
OMAE 2019; V001T01A059https://doi.org/10.1115/OMAE2019-96710
Topics:
Dynamic positioning systems
,
Bridges (Structures)
,
Computer software
,
Damage
,
Drilling
,
Errors
,
Failure analysis
,
Petroleum
,
Pollution
,
Production equipment
Wave Loading and Motions in Extreme Seas
Efficient Indicators for Screening of Random Waves for Wave Impacts on a Jacket Platform and a Fixed Offshore Wind Turbine
OMAE 2019; V001T01A061https://doi.org/10.1115/OMAE2019-95481
Topics:
Offshore wind turbines
,
Waves
,
Design
,
Stress
,
Seas
,
Uncertainty
,
North Sea
,
Probability
,
Water
,
Computational fluid dynamics
The Ocean Cleanup System 001 Performance During Towing and Seakeeping Tests
OMAE 2019; V001T01A063https://doi.org/10.1115/OMAE2019-96207
Topics:
Fluid structure interaction
,
Oceans
,
Waves
,
Deformation
,
Plastics
,
Computer simulation
,
Pollution
Offshore Geotechnics
Anchors
Combined Wave-Current Induced Instantaneous Liquefaction of a Sandy Seabed
OMAE 2019; V001T10A004https://doi.org/10.1115/OMAE2019-96655
Topics:
Liquefaction
,
Seabed
,
Waves
,
Design
Bucket Foundations, Suction Caissons, and Spudcans
Protection of Pipelines and Cables With a Combination of Soil and Rock Cover
OMAE 2019; V001T10A005https://doi.org/10.1115/OMAE2019-95262
Topics:
Cables
,
Numerical analysis
,
Pipelines
,
Rocks
,
Soil
Cone Penetration Test in Stiff Over Soft Clay in Centrifuge Test
OMAE 2019; V001T10A008https://doi.org/10.1115/OMAE2019-96698
Topics:
Bearings
,
Deformation
,
Design
,
Finite element analysis
,
Flow charts
,
Shear strength
,
Soil
Pile Foundations
Method Evaluating Axial Response of Vertically-Loaded Piles During Spudcan Penetration
OMAE 2019; V001T10A009https://doi.org/10.1115/OMAE2019-95422
Topics:
Deformation
,
Displacement
,
Flow (Dynamics)
,
Friction
,
Offshore platforms
,
Sands
,
Soil
,
Stress
Evaluation of Uncertainty of Damage Results in Experimental Modelling of Monopile Foundation Scour Protection
Minghao Wu, Jonas Arnout, Josep Molina Ruiz, Carlos Arboleda Chavez, Vasiliki Stratigaki, Peter Troch
OMAE 2019; V001T10A011https://doi.org/10.1115/OMAE2019-95793
Topics:
Damage
,
Flumes
,
Modeling
,
Uncertainty
,
Uncertainty analysis
,
Waves
,
Design
,
Erosion
,
Currents
,
Wind turbines
An Enhanced Interface Model for Friction Fatigue Problems of Axially Loaded Piles
OMAE 2019; V001T10A013https://doi.org/10.1115/OMAE2019-96078
Topics:
Fatigue
,
Friction
,
Soil
,
Stress
,
Compacting
,
Constitutive equations
,
Die cutting
,
Failure
,
Interface phenomena
,
Liquefaction
Influence of Different Pile Installation Methods on Dense Sand
OMAE 2019; V001T10A014https://doi.org/10.1115/OMAE2019-96109
Topics:
Dimensions
,
Geometry
,
Modeling
,
Ocean engineering
,
Probes
,
Sands
,
Soil
Pipeline Geotechnics
Axial Resistance of Smooth Polymer Pipelines on Sand
OMAE 2019; V001T10A015https://doi.org/10.1115/OMAE2019-95938
Topics:
Coating processes
,
Coatings
,
Friction
,
Pipelines
,
Polymers
,
Sands
,
Stress
,
Surface roughness
Drained Lateral Breakout Resistance of Subsea Pipelines
OMAE 2019; V001T10A016https://doi.org/10.1115/OMAE2019-96174
Topics:
Pipelines
,
Sands
,
Underwater pipelines
,
Soil
,
Seabed
,
Buckling
,
Design
,
Displacement
,
Finite element analysis
,
Friction
Seabed Properties and Processes
On the Selection of an Appropriate Consolidation Coefficient for Offshore Geotechnical Design
OMAE 2019; V001T10A021https://doi.org/10.1115/OMAE2019-95800
Topics:
Design
,
Ocean engineering
,
Seabed
,
Soil
,
Pipelines
,
Stiffness
,
Compression
,
Die cutting
,
Drainage
,
Friction
Fundamental Engineering Characteristics of Cohesive Sediments in the Northern Region of South China Sea
OMAE 2019; V001T10A022https://doi.org/10.1115/OMAE2019-96599
Topics:
China
,
Engineering fundamentals
,
Seas
,
Sediments
,
Water
,
Soil
,
Gulf of Mexico
,
Ocean engineering
,
Particulate matter
,
Plasticity
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