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Proceedings Papers

Proceedings Volume Cover
ASME 2018 37th International Conference on Ocean, Offshore and Arctic Engineering
June 17–22, 2018
Madrid, Spain
Conference Sponsors:
  • Ocean, Offshore and Arctic Engineering Division
ISBN:
978-0-7918-5130-2
Volume 9: Offshore Geotechnics; Honoring Symposium for Professor Bernard Molin on Marine and Offshore Hydrodynamics

Offshore Geotechnics

Anchors I

Finite Element Simulation of an Embedded Anchor Chain
Chao Sun, Xiaowei Feng, Susan Gourvenec, Steven R. Neubecker, Mark F. Randolph
OMAE 2018; V009T10A001https://doi.org/10.1115/OMAE2018-77781
View Articletitled, Finite Element Simulation of an Embedded Anchor Chain
PDF
Topics: Chain , Finite element analysis , Simulation , Soil , Mooring , Design , Calibration , Computer simulation , Earth resistance , Seabed
Experimental and Numerical Study on Holding Power of Rectangular-Shaped Anchors
Kimihiro Toh, Yusuke Fukumoto, Takao Yoshikawa
OMAE 2018; V009T10A002https://doi.org/10.1115/OMAE2018-77814
View Articletitled, Experimental and Numerical Study on Holding Power of Rectangular-Shaped Anchors
PDF
Topics: Accuracy and precision , Computer simulation , Discrete element methods , Energy consumption , Finite element analysis , Flat plates , Floating structures , Industrial research , Mooring , Numerical analysis
Performance of Embedded Mooring Lines During Keying and Diving of Gravity Installed Anchors
Yanbing Zhao, Haixiao Liu
OMAE 2018; V009T10A003https://doi.org/10.1115/OMAE2018-78034
View Articletitled, Performance of Embedded Mooring Lines During Keying and Diving of Gravity Installed Anchors
PDF
Topics: Gravity (Force) , Mooring , Drag (Fluid dynamics) , Deformation , Finite element analysis , Plasticity , Soil
Experimental Study of the Influence of the Pore Water Pressure Evolution and the Shear Band Formation on the Extraction Resistance of Submerged Anchor Plates
Manuela Kanitz, Juergen Grabe
OMAE 2018; V009T10A004https://doi.org/10.1115/OMAE2018-78306
View Articletitled, Experimental Study of the Influence of the Pore Water Pressure Evolution and the Shear Band Formation on the Extraction Resistance of Submerged Anchor Plates
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Topics: Plates (structures) , Shear (Mechanics) , Water pressure , Cycles , Offshore structures , Soil , Currents , Displacement , Hydrostatics , Packing (Shipments)

Anchors II

A Method to Predict Embedded Trajectory Based on the Finite Element Analyses of Bearing Capacity of Drag Anchor
Dongsheng Qiao, Muren Bao, Jun Yan, Daocheng Zhou, Yugang Li
OMAE 2018; V009T10A005https://doi.org/10.1115/OMAE2018-77167
View Articletitled, A Method to Predict Embedded Trajectory Based on the Finite Element Analyses of Bearing Capacity of Drag Anchor
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Topics: Drag (Fluid dynamics) , Finite element analysis , Load bearing capacity , Trajectories (Physics) , Design , Mooring , Seabed , Displacement , Equilibrium (Physics) , Finite element model
Penetration of Ship Anchors and the Influence of Submarine Cables
Jürgen Grabe, Evelyn Heins
OMAE 2018; V009T10A006https://doi.org/10.1115/OMAE2018-78314
View Articletitled, Penetration of Ship Anchors and the Influence of Submarine Cables
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Topics: Cables , Ships , Underwater vehicles , Damage , Risk , Computer simulation , Regulations , Risk assessment , Sands , Seabed
Experimental Study on Gravity Anchor for Optimum Design of Shear Key
Yun Su Han, Jeong Woo Hong, Min Han Oh, Jong Jin Jung
OMAE 2018; V009T10A007https://doi.org/10.1115/OMAE2018-78390
View Articletitled, Experimental Study on Gravity Anchor for Optimum Design of Shear Key
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Topics: Design , Gravity (Force) , Shear (Mechanics) , Ocean engineering , Weight (Mass) , Cements (Adhesives) , Mooring , Railroad passenger cars , Rocks , Sands
Numerical Investigation Into the Keying Process of a Plate Anchor Vertically Installed in Cohesionless Soil
Nabil Al Hakeem, Charles Aubeny
OMAE 2018; V009T10A008https://doi.org/10.1115/OMAE2018-78617
View Articletitled, Numerical Investigation Into the Keying Process of a Plate Anchor Vertically Installed in Cohesionless Soil
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Topics: Soil , Deformation , Displacement , Finite element analysis , Interpolation , Offshore structures , Peak load , Rotation , Simulation , Stiffness

Bucket Foundations and Suction Caissons

An Experimental Comparison of Horizontal Resistance of Single Suction Pile and Group Suction Piles
Juhyung Lee, Hakman Kim, Jinwoo Cho
OMAE 2018; V009T10A009https://doi.org/10.1115/OMAE2018-77192
View Articletitled, An Experimental Comparison of Horizontal Resistance of Single Suction Pile and Group Suction Piles
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Topics: Suction , Floating structures , Pilings (Building)
Undrained Uniaxial Capacities of Suction Bucket Foundations in Rows
Zhong Xiao, Yumin Lu, Ying Liu
OMAE 2018; V009T10A010https://doi.org/10.1115/OMAE2018-77205
View Articletitled, Undrained Uniaxial Capacities of Suction Bucket Foundations in Rows
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Topics: Suction , Bearings , Soil , Breakwaters , Bridges (Structures) , Cofferdams , Construction , Failure mechanisms , Finite element model , Footings (Construction)
Experimental Study of Muddy Soil Inside Suction Bucket Foundation by Vacuum Electro-Osmosis
Zhang Puyang, Zhai Hanbo, Ding Hongyan, Le Conghuan
OMAE 2018; V009T10A011https://doi.org/10.1115/OMAE2018-77371
View Articletitled, Experimental Study of Muddy Soil Inside Suction Bucket Foundation by Vacuum Electro-Osmosis
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Topics: Electroosmosis , Soil , Suction , Vacuum , Construction , Composite materials , Engineering prototypes , Failure , Friction , Load bearing capacity

Pile Foundations I

Scale Model Investigations on Vibro Pile Driving
Philipp Stein, Nils Hinzmann, Jörg Gattermann
OMAE 2018; V009T10A012https://doi.org/10.1115/OMAE2018-77081
View Articletitled, Scale Model Investigations on Vibro Pile Driving
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Topics: Bearings , Design , Equilibrium (Physics) , Fatigue , Friction , Hammers , Noise (Sound) , Offshore wind turbines , Pilings (Building) , Pipes
Insights Into Compaction Grouting for Offshore Pile Foundations
Peter Geißler, Pablo Cuéllar, Götz Hüsken, Hans-Carsten Kühne, Matthias Baeßler
OMAE 2018; V009T10A013https://doi.org/10.1115/OMAE2018-77277
View Articletitled, Insights Into Compaction Grouting for Offshore Pile Foundations
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Topics: Compacting , Grouting , Ocean engineering , Pilings (Building) , Soil , Transparency , Deformation , Design , Fracture (Process) , High pressure (Physics)
Study on the Lateral Bearing Capacity of Single-Helix Pile for Offshore Wind Power
Hongyan Ding, Le Wang, Puyang Zhang, Conghuan Le
OMAE 2018; V009T10A014https://doi.org/10.1115/OMAE2018-77391
View Articletitled, Study on the Lateral Bearing Capacity of Single-Helix Pile for Offshore Wind Power
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Topics: Load bearing capacity , Ocean engineering , Wind power , Screws , Pipes , Soil , Steel
Study on Vertical Bearing Capacity of the Riser Composite Pile in Clay
Liang Chao, Liu Run, Wan Jun, Guan Pei, Li Xiangyun
OMAE 2018; V009T10A015https://doi.org/10.1115/OMAE2018-78492
View Articletitled, Study on Vertical Bearing Capacity of the Riser Composite Pile in Clay
PDF
Topics: Composite materials , Load bearing capacity , Pipeline risers , Risers (Casting) , Bearings , Finite element methods , Oil fields , Pilings (Building) , Pipes , Steel

Pile Foundations II

Enhanced Kinematic Hardening Model for Load-Dependent Stiffness and Damping of Jack-Up Foundations
Maas Hoogeveen, Hugo Hofstede, Amir M. Kaynia
OMAE 2018; V009T10A016https://doi.org/10.1115/OMAE2018-77285
View Articletitled, Enhanced Kinematic Hardening Model for Load-Dependent Stiffness and Damping of Jack-Up Foundations
PDF
Topics: Damping , Hardening , Jack-up drilling rigs , Kinematics , Stiffness , Stress , Simulation , Springs , Soil , Displacement
Numerical Simulation on Residual Responses of Adjacent Piles After Spudcan Penetration and Extraction
Jianhua Wang, Yifei Fan, Haibo Ji
OMAE 2018; V009T10A017https://doi.org/10.1115/OMAE2018-77788
View Articletitled, Numerical Simulation on Residual Responses of Adjacent Piles After Spudcan Penetration and Extraction
PDF
Topics: Clearances (Engineering) , Computer simulation , Deformation , Finite element methods , Jack-up drilling rigs , Ocean engineering , Sands , Seabed , Shear strength , Stress
Experimental Study of Water Cutoff Performance of Steel Pipe Sheet Piles With Interlocked Joint
Youngho Hong, Daesung Lim, Doowon Seo, Jaeku Jeon, Kwangseok Chae, Jongsub Lee
OMAE 2018; V009T10A018https://doi.org/10.1115/OMAE2018-78124
View Articletitled, Experimental Study of Water Cutoff Performance of Steel Pipe Sheet Piles With Interlocked Joint
PDF
Topics: Pipes , Sheet piling , Steel , Water , Sanitary landfills , Ocean engineering , Permeability , Deformation , Hydraulic conductivity , Seas
Field Study on the Effects of Impact Frequency on the Axial and Lateral Capacity of Driven Pipe Piles in Sand
Ivana Anusic, Barry M. Lehane, Gudmund R. Eiksund, Morten A. Liingaard
OMAE 2018; V009T10A019https://doi.org/10.1115/OMAE2018-78428
View Articletitled, Field Study on the Effects of Impact Frequency on the Axial and Lateral Capacity of Driven Pipe Piles in Sand
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Topics: Pipes , Sands , Vibration , Inspection , Ocean engineering , Steel , Stress , Tension , Testing , Uncertainty
Decommissioning of Offshore Monopiles, Occuring Problems and Alternative Solutions
Nils Hinzmann, Philipp Stein, Jörg Gattermann
OMAE 2018; V009T10A020https://doi.org/10.1115/OMAE2018-78577
View Articletitled, Decommissioning of Offshore Monopiles, Occuring Problems and Alternative Solutions
PDF
Topics: Nuclear decommissioning , Ocean engineering , Buoyancy , Cycles , Dredging , Drilling , Offshore wind turbines , Regulations , Wind , Wind farms

Pipelines

Two-Phase Model for Simulating Current-Induced Scour Beneath Subsea Pipelines at Different Initial Elevations
Jun Y. Lee, Jasmin B. T. McInerney, Fauzi A. Hardjanto, Shuhong Chai, Remo Cossu, Zhi Q. Leong, Alexander L. Forrest
OMAE 2018; V009T10A021https://doi.org/10.1115/OMAE2018-77245
View Articletitled, Two-Phase Model for Simulating Current-Induced Scour Beneath Subsea Pipelines at Different Initial Elevations
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Topics: Elevations (Drawings) , Underwater pipelines , Equilibrium (Physics) , Pipes , Computation , Flow (Dynamics) , Pipelines , Seabed , Stability
Benchmark of Erosion Criteria in a Deepwater Development
Susana Gómez-Álvarez, Fernando García Ruíz, Daniel Merino-García
OMAE 2018; V009T10A022https://doi.org/10.1115/OMAE2018-77477
View Articletitled, Benchmark of Erosion Criteria in a Deepwater Development
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Topics: Deepwater development , Erosion , Wells , American Petroleum Institute , Manufacturing systems , Assembly lines , Condensed matter , Fluids , Natural gas wells , Ocean engineering
Simulating the Response of Untrenched Flowlines due to Iceberg-Flowline-Soil Interaction
Kenton Pike, Andrew Blundon
OMAE 2018; V009T10A023https://doi.org/10.1115/OMAE2018-78128
View Articletitled, Simulating the Response of Untrenched Flowlines due to Iceberg-Flowline-Soil Interaction
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Topics: Icebergs , Soil , Pipes , Failure , Ocean engineering , Constitutive equations , Pipelines , Plane strain , Sands , Deformation
Evaluation of Existing Semi-Empirical Models of Scour at a Submarine System
Valeria S. Rego, Claudia M. P. M. Santos
OMAE 2018; V009T10A024https://doi.org/10.1115/OMAE2018-78157
View Articletitled, Evaluation of Existing Semi-Empirical Models of Scour at a Submarine System
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Topics: Underwater vehicles , Gravity (Force) , Inspection , Pipelines , Sediments , Statistics

Seabed Interaction, Processes, and Properties

Numerical Analysis of Steep Wave-Induced Seabed Response and Liquefaction Around Gravity-Based Offshore Foundations
Yuzhu Li, Muk Chen Ong, Ove Tobias Gudmestad, Bjørn Helge Hjertager
OMAE 2018; V009T10A025https://doi.org/10.1115/OMAE2018-77046
View Articletitled, Numerical Analysis of Steep Wave-Induced Seabed Response and Liquefaction Around Gravity-Based Offshore Foundations
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Topics: Gravity (Force) , Liquefaction , Numerical analysis , Ocean engineering , Seabed , Waves , Soil , Corners (Structural elements) , Nonlinear waves , Pressure
Gravity Based Foundations for Offshore Wind Turbines: Cyclic Loading and Liquefaction
Martijn van Wijngaarden, Piet Meijers, Tim Raaijmakers, Richard de Jager, Kenneth Gavin
OMAE 2018; V009T10A026https://doi.org/10.1115/OMAE2018-77082
View Articletitled, Gravity Based Foundations for Offshore Wind Turbines: Cyclic Loading and Liquefaction
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Topics: Gravity (Force) , Liquefaction , Offshore wind turbines , Storms , Stress , Energy dissipation , Electromagnetic scattering , Marine structures , Modeling , Turbines
The Granular Structure of Two Marine Carbonate Sediments
Ryan D. Beemer, Alexandre N. Bandini-Maeder, Jeremy Shaw, Ulysse Lebrec, Mark J. Cassidy
OMAE 2018; V009T10A027https://doi.org/10.1115/OMAE2018-77087
View Articletitled, The Granular Structure of Two Marine Carbonate Sediments
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Topics: Sediments , Shorelines , Engineers , Ocean engineering , Particulate matter , Soil , Micromechanics (Engineering) , Microscopes , Optical microscopes , Three-dimensional models
Modelling Turbulent Flow in Deformable Highly Porous Seabed and Structures
Hisham Elsafti, Hocine Oumeraci
OMAE 2018; V009T10A028https://doi.org/10.1115/OMAE2018-77318
View Articletitled, Modelling Turbulent Flow in Deformable Highly Porous Seabed and Structures
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Topics: Modeling , Seabed , Turbulence , Flow (Dynamics) , Porous materials , Fluids , Viscosity , Deformation , Eddies (Fluid dynamics) , Fluid dynamics
Simulation of Working Posture of Deepwater Gravity Sampling Device Using OpenFOAM
Zhe Ma, Danya Kong, Yin Wang, Nianxin Ren, Gangjun Zhai
OMAE 2018; V009T10A029https://doi.org/10.1115/OMAE2018-77442
View Articletitled, Simulation of Working Posture of Deepwater Gravity Sampling Device Using OpenFOAM
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Topics: Gravity (Force) , Simulation , Computational fluid dynamics , Computer simulation , Deflection , Flow (Dynamics) , Marine engineering

Spudcans and Shallow Foundations

Anchor Sharing in Sands: Centrifuge Modelling and Soil Element Testing to Characterise Multi-Directional Loadings
Manuel Herduin, Christophe Gaudin, Lars Johanning
OMAE 2018; V009T10A030https://doi.org/10.1115/OMAE2018-77419
View Articletitled, Anchor Sharing in Sands: Centrifuge Modelling and Soil Element Testing to Characterise Multi-Directional Loadings
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Topics: Modeling , Sands , Soil , Testing , Mooring , Stress , Ocean engineering , Caissons , Displacement , Renewable energy
Effect of Underlying Sand Layer on Undrained Capacity of Spudcan Foundations in Soft Clay Under Combined Loading
Yifa Wang, Mark J. Cassidy, Britta Bienen
OMAE 2018; V009T10A031https://doi.org/10.1115/OMAE2018-78198
View Articletitled, Effect of Underlying Sand Layer on Undrained Capacity of Spudcan Foundations in Soft Clay Under Combined Loading
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Topics: Sands , Accounting , Failure , Failure mechanisms , Finite element analysis , Jack-up drilling rigs , Load bearing capacity , Shapes , Soil
Response Study of Jacket Piles Induced by Spudcan Penetration
Shuzhao Li, Zhongchang Wang, Xu Jia, Linlin He
OMAE 2018; V009T10A032https://doi.org/10.1115/OMAE2018-78337
View Articletitled, Response Study of Jacket Piles Induced by Spudcan Penetration
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Topics: Accidents , China , Clearances (Engineering) , Computer simulation , Deformation , Displacement , Drills (Tools) , Jack-up drilling rigs , Ocean engineering , Pilings (Building)
Study on ALE Method for Simulating Spudcan Penetrating Near Piles
Wang Jiayu, Liu Run, Liang Chao, Xiao Hui, Wan Jun
OMAE 2018; V009T10A033https://doi.org/10.1115/OMAE2018-78493
View Articletitled, Study on ALE Method for Simulating Spudcan Penetrating Near Piles
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Topics: Algorithms , American Petroleum Institute , Clearances (Engineering) , Computation , Deformation , Dynamics (Mechanics) , Elastic moduli , Jack-up drilling rigs , Load bearing capacity , Simulation results

Honoring Symposium for Professor Bernard Molin on Marine and Offshore Hydrodynamics

Floating Foundations for Wind Turbines

Hydrodynamics Around a Deep-Draft Semi-Submersible With Various Corner Shapes
Yibo Liang, Longbin Tao
OMAE 2018; V009T13A001https://doi.org/10.1115/OMAE2018-77135
View Articletitled, Hydrodynamics Around a Deep-Draft Semi-Submersible With Various Corner Shapes
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Topics: Corners (Structural elements) , Hydrodynamics , Semi-submersible offshore structures , Shapes , Flow (Dynamics) , Shape design , Computer simulation , Design , Fluids , Physics
Modeling of a Semisubmersible Floating Wind Platform in Severe Waves
I. Rivera-Arreba, N. Bruinsma, E. E. Bachynski, A. Viré, B. T. Paulsen, N. G. Jacobsen
OMAE 2018; V009T13A002https://doi.org/10.1115/OMAE2018-77680
View Articletitled, Modeling of a Semisubmersible Floating Wind Platform in Severe Waves
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Topics: Modeling , Semi-submersible offshore structures , Waves , Wind , Flow (Dynamics) , Mooring , Ocean engineering , Cylinders , Dynamic analysis , Inertia (Mechanics)
Study of Viscous Effects on Wave Drift Forces on a Rectangular Pontoon With a Damping Plate by Using CFD Code OpenFOAM
Adrien Courbois, Emmanuel Tcheuko, Benjamin Bouscasse, Youngmyung Choi, Olivier Kimmoun, Riccardo Mariani
OMAE 2018; V009T13A003https://doi.org/10.1115/OMAE2018-78053
View Articletitled, Study of Viscous Effects on Wave Drift Forces on a Rectangular Pontoon With a Damping Plate by Using CFD Code OpenFOAM
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Topics: Computational fluid dynamics , Damping , Wave drift forces , Waves , Energy dissipation , Wave energy , Canals , Computation , Diffraction , Offshore structures
Slewing Effect of Twin Vertical Axis Turbines Supported by a Floating Platform Able to Rotate Around a Single Mooring System
Kazuma Kusanagi, Sharath Srinivasamurthy, Yasunori Nihei
OMAE 2018; V009T13A004https://doi.org/10.1115/OMAE2018-78410
View Articletitled, Slewing Effect of Twin Vertical Axis Turbines Supported by a Floating Platform Able to Rotate Around a Single Mooring System
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Topics: Mooring , Turbines , Wind , Vertical axis wind turbines , Yaw , Computer simulation , Equations of motion , Ocean engineering , Physics , Renewable energy
Numerical and Experimental Investigation of the Wave Loading on a Three-Legged Offshore Wind Turbine Jacket Platform
Ioannis K. Chatjigeorgiou, Konstantinos Chatziioannou, Vanessa Katsardi, Apostolos Koukouselis, Euripidis Mistakidis
OMAE 2018; V009T13A005https://doi.org/10.1115/OMAE2018-78416
View Articletitled, Numerical and Experimental Investigation of the Wave Loading on a Three-Legged Offshore Wind Turbine Jacket Platform
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Topics: Offshore wind turbines , Waves , Finite element model , Computer programming , Computer software , Kinematics , Nonlinear waves , Particulate matter , Stress , Structural analysis

Gap and Moonpool Resonance

Effect of Moonpool Shape and Dimensions on Drillship Operability
Dimitris Chalkias, Jan Willem Krijger
OMAE 2018; V009T13A006https://doi.org/10.1115/OMAE2018-77499
View Articletitled, Effect of Moonpool Shape and Dimensions on Drillship Operability
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Topics: Dimensions , Drillships , Shapes , Vessels , Computational fluid dynamics , Flow (Dynamics) , Damping , Diffraction , Drilling , Ocean engineering
On Wave Diffraction of a Two-Dimensional Moonpool in a Two-Layer Fluid in Finite Water Depth
Xingyu Song, Xin Xu, Xinshu Zhang, Yunxiang You
OMAE 2018; V009T13A007https://doi.org/10.1115/OMAE2018-77528
View Articletitled, On Wave Diffraction of a Two-Dimensional Moonpool in a Two-Layer Fluid in Finite Water Depth
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Topics: Diffraction , Fluids , Water , Waves , Resonance , Pistons , Elevations (Drawings) , Computation , Sloshing , Surface waves (Fluid)
Wave Diffraction on Arrays of Vertical Truncated Cylindrical Bodies
Spyros A. Mavrakos, Ioannis K. Chatjigeorgiou, Dimitrios N. Konispoliatis
OMAE 2018; V009T13A008https://doi.org/10.1115/OMAE2018-78287
View Articletitled, Wave Diffraction on Arrays of Vertical Truncated Cylindrical Bodies
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Topics: Diffraction , Waves , Cylinders , Stress , Absorption , Ocean engineering , Resonance , Wave energy , Wave energy converters
A 2D Experimental and Numerical Study of Moonpools With Recess
Senthuran Ravinthrakumar, Trygve Kristiansen, Babak Ommani
OMAE 2018; V009T13A009https://doi.org/10.1115/OMAE2018-78326
View Articletitled, A 2D Experimental and Numerical Study of Moonpools With Recess
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Topics: Boundary element methods , Corners (Structural elements) , Damping , Engineering simulation , Flow (Dynamics) , Flow separation , Mode shapes , Pistons , Resonance , Simulation
Investigating a Simplified Model for Moonpool Piston Mode Response in Irregular Waves
Babak Ommani, Trygve Kristiansen, Kjetil Berget
OMAE 2018; V009T13A010https://doi.org/10.1115/OMAE2018-78352
View Articletitled, Investigating a Simplified Model for Moonpool Piston Mode Response in Irregular Waves
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Topics: Pistons , Waves , Damping , Degrees of freedom , Flow (Dynamics) , Vessels , Boundary-value problems , Diffraction , Flow separation , Ocean engineering
Experimental and Numerical Study for Gap Resonance of Drillship Moonpool in Waves With/Without Forward Speed
Allan R. Magee, Aichun Feng, Kandasamy Karthikeyan, Xiang Liu, Deguang Yan
OMAE 2018; V009T13A011https://doi.org/10.1115/OMAE2018-78561
View Articletitled, Experimental and Numerical Study for Gap Resonance of Drillship Moonpool in Waves With/Without Forward Speed
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Topics: Drillships , Resonance , Waves , Flumes , Pistons , Seas , Computational fluid dynamics , Ships , Sloshing
Nonlinear Lid Technique: Application to Gap and Moonpool Resonance
B. Lécuyer, M.-C. Rouault
OMAE 2018; V009T13A012https://doi.org/10.1115/OMAE2018-78623
View Articletitled, Nonlinear Lid Technique: Application to Gap and Moonpool Resonance
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Topics: Computer software , Damping , Deformation , Degrees of freedom , Mechanical structures , Pistons , Plates (structures) , Resonance , Seas

Hydroelasticity

Resonances of Floating Elastic Structures in Enclosed Shallow-Water Basins
T. K. Papathanasiou, K. A. Belibassakis
OMAE 2018; V009T13A013https://doi.org/10.1115/OMAE2018-77529
View Articletitled, Resonances of Floating Elastic Structures in Enclosed Shallow-Water Basins
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Topics: Resonance , Water , Water waves , Waves , Floating structures , Standing waves , Ice , Lakes , Deflection , Design
Impact on an Ice Floe With a Surface Crack
Alexander A. Korobkin, Tatiana I. Khabakhpasheva
OMAE 2018; V009T13A014https://doi.org/10.1115/OMAE2018-78273
View Articletitled, Impact on an Ice Floe With a Surface Crack
PDF
Topics: Ice floes , Surface cracks , Fracture (Materials) , Deflection , Ice , Springs , Stress , Dynamics (Mechanics) , Elastic plates , Equilibrium (Physics)
Investigation of an Air-Cushion Supported Solar Island
Trygve Kristiansen, Petter Borvik
OMAE 2018; V009T13A015https://doi.org/10.1115/OMAE2018-78533
View Articletitled, Investigation of an Air-Cushion Supported Solar Island
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Topics: Solar energy , Waves , Membranes , Failure mechanisms , Floods , Leakage , Water , Accounting , Flow (Dynamics) , Instrumentation
Elasto-Plastic Beam Afloat on Water Subjected to Waves
Kazuhiro Iijima, Akira Tatsumi, Masahiko Fujikubo
OMAE 2018; V009T13A016https://doi.org/10.1115/OMAE2018-78646
View Articletitled, Elasto-Plastic Beam Afloat on Water Subjected to Waves
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Topics: Water , Waves , Collapse , Floating structures , Potential theory (Physics)

Seakeeping

Comparison of RANS Method and Discrete Vortex Method on Simulating the Roll Motion of a Ship With Bilge Keels
Yichen Jiang, Xiaojie Zhao, Zhihua Zeng, Tiezhi Sun, Jiawen Li, Zhi Zong
OMAE 2018; V009T13A017https://doi.org/10.1115/OMAE2018-78474
View Articletitled, Comparison of RANS Method and Discrete Vortex Method on Simulating the Roll Motion of a Ship With Bilge Keels
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Topics: Keel , Reynolds-averaged Navier–Stokes equations , Ships , Vortices , Damping , Computation , Computer simulation , Flow separation , Fluids , Hull
An Improved Body-Exact Method to Predict Large Amplitude Ship Roll Responses
Rahul Subramanian, Naga Venkata Rakesh, Robert F. Beck
OMAE 2018; V009T13A018https://doi.org/10.1115/OMAE2018-78720
View Articletitled, An Improved Body-Exact Method to Predict Large Amplitude Ship Roll Responses
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Topics: Ships , Waves , Stress , Boundary-value problems , Diffraction , Fluids , Hydrostatics , Offshore structures , Strips , Vessels

Second-Order Loads and Response

Numerical Analysis of Second-Order Mean Wave Forces by a Stabilized Higher Order Boundary Element Method
Yan-Lin Shao
OMAE 2018; V009T13A019https://doi.org/10.1115/OMAE2018-78350
View Articletitled, Numerical Analysis of Second-Order Mean Wave Forces by a Stabilized Higher Order Boundary Element Method
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Topics: Boundary element methods , Numerical analysis , Wave forces , Kinematics , Waves , Boundary-value problems , Corners (Structural elements) , Flow (Dynamics) , Shapes
On the Possibility to Compute Slowly-Varying Drift in a CFD Solver
Charles Monroy, Charaf Ouled Housseine, Sime Malenica
OMAE 2018; V009T13A020https://doi.org/10.1115/OMAE2018-78379
View Articletitled, On the Possibility to Compute Slowly-Varying Drift in a CFD Solver
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Topics: Computational fluid dynamics , Waves , Flow (Dynamics) , Mooring , Ocean engineering , Vessels , Wave packets
Design Wave Analysis for the Extreme Horizontal Slow-Drift Motion of Moored Floating Platforms
Dong-Hyun Lim, Yonghwan Kim
OMAE 2018; V009T13A021https://doi.org/10.1115/OMAE2018-78582
View Articletitled, Design Wave Analysis for the Extreme Horizontal Slow-Drift Motion of Moored Floating Platforms
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Topics: Design , Mooring , Waves , Engineering simulation , Simulation , Dynamic systems , Offshore structures , Semi-submersible offshore structures , Volterra series , Water

Sloshing in Tanks

Resonant Steady-State Sloshing in Upright Tanks: Effect of Three-Dimensional Excitations and Viscosity
Alexander N. Timokha, Ihor A. Raynovskyy
OMAE 2018; V009T13A022https://doi.org/10.1115/OMAE2018-77534
View Articletitled, Resonant Steady-State Sloshing in Upright Tanks: Effect of Three-Dimensional Excitations and Viscosity
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Topics: Excitation , Resonance , Sloshing , Steady state , Viscosity , Containers , Damping , Approximation , Bearings , Surface waves (Fluid)
Numerical Modeling of the Forced Motion Dynamics of Antiroll Tank With OpenFOAM
V. R. Bernal-Colio, J. L. Cercos-Pita, J. Calderon-Sanchez, H. R. Diaz-Ojeda, Ricardo Abad, A. Souto-Iglesias
OMAE 2018; V009T13A023https://doi.org/10.1115/OMAE2018-77609
View Articletitled, Numerical Modeling of the Forced Motion Dynamics of Antiroll Tank With OpenFOAM
PDF
Topics: Computer simulation , Dynamics (Mechanics) , Computational fluid dynamics , Boundary-value problems , Design , Engineering simulation , Filtration , Performance , Simulation , Testing
Nonlinear Effects of Wave Heights on Coupled Sloshing and Seakeeping Responses
Xin Wang, Makoto Arai, Gustavo Karuka
OMAE 2018; V009T13A024https://doi.org/10.1115/OMAE2018-78232
View Articletitled, Nonlinear Effects of Wave Heights on Coupled Sloshing and Seakeeping Responses
PDF
Topics: Sloshing , Waves , Numerical analysis , Liquefied natural gas , Dynamics (Mechanics) , Finite difference methods , Hydrostatics , Impulse (Physics) , Natural gas , Ocean engineering
Numerical Study of Density Ratio Influence on Global Wave Shapes Before Impact
Stéphane Etienne, Yves-Marie Scolan, Laurent Brosset
OMAE 2018; V009T13A025https://doi.org/10.1115/OMAE2018-78624
View Articletitled, Numerical Study of Density Ratio Influence on Global Wave Shapes Before Impact
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Topics: Density , Shapes , Waves , Flow (Dynamics) , Fluids , Surface tension , Canals , Compressibility , Computer simulation , Computer software
Numerical Study of Phase Change Influence on Wave Impact Loads in LNG Tanks on Floating Structures
Matthieu Ancellin, Laurent Brosset, Jean-Michel Ghidaglia
OMAE 2018; V009T13A026https://doi.org/10.1115/OMAE2018-78643
View Articletitled, Numerical Study of Phase Change Influence on Wave Impact Loads in LNG Tanks on Floating Structures
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Topics: Floating structures , Liquefied natural gas , Stress , Waves , Sloshing , Membranes , Natural gas , Phase (Wave motion) , Physics , Pressure

Wave Body Interaction

Progress in Coupling Potential Wave Models and Two-Phase Solvers With the SWENSE Methodology
Zhaobin Li, Benjamin Bouscasse, Lionel Gentaz, Guillaume Ducrozet, Pierre Ferrant
OMAE 2018; V009T13A027https://doi.org/10.1115/OMAE2018-77466
View Articletitled, Progress in Coupling Potential Wave Models and Two-Phase Solvers With the SWENSE Methodology
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Topics: Waves , Computational fluid dynamics , Potential theory (Physics) , Cylinders , Engineering simulation , Navier-Stokes equations , Simulation , Stability , Viscosity
Artificial Intelligence Machine Learning in Marine Hydrodynamics
Paul D. Sclavounos, Yu Ma
OMAE 2018; V009T13A028https://doi.org/10.1115/OMAE2018-77599
View Articletitled, Artificial Intelligence Machine Learning in Marine Hydrodynamics
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Topics: Artificial intelligence , Hydrodynamics , Machine learning , Support vector machines , Algorithms , Vessels , Damping , Elevations (Drawings) , Engineering disciplines , Flow (Dynamics)
CFD Simulations of Spilling Breaking Waves and Steep Waves Past a Monopile Structure at Different KC Numbers
Shengnan Liu, Muk Chen Ong, Charlotte Obhrai
OMAE 2018; V009T13A029https://doi.org/10.1115/OMAE2018-77604
View Articletitled, CFD Simulations of Spilling Breaking Waves and Steep Waves Past a Monopile Structure at Different KC Numbers
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Topics: Computational fluid dynamics , Engineering simulation , Simulation , Waves , Turbulence , Wave forces , Computer simulation , Cycles , Fluids , Pressure
Nonlinear Wave-Body Interaction Using a Mixed-Eulerian-Lagrangian Spectral Element Model
Carlos Monteserin, Allan P. Engsig-Karup, Claes Eskilsson
OMAE 2018; V009T13A030https://doi.org/10.1115/OMAE2018-77692
View Articletitled, Nonlinear Wave-Body Interaction Using a Mixed-Eulerian-Lagrangian Spectral Element Model
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Topics: Waves , Dimensions , Flow (Dynamics) , Numerical analysis
Using the Floating Body Symmetries to Speed Up the Numerical Computation of Hydrodynamics Coefficients With Nemoh
Matthieu Ancellin, Frederic Dias
OMAE 2018; V009T13A031https://doi.org/10.1115/OMAE2018-77924
View Articletitled, Using the Floating Body Symmetries to Speed Up the Numerical Computation of Hydrodynamics Coefficients With Nemoh
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Topics: Computation , Floating bodies , Hydrodynamics , Boundary element methods , Flow (Dynamics) , Shapes , Wave energy converters , Damping , Radiation (Physics) , Resolution (Optics)
Hydrodynamic Interactions of the Truncated Porous Vertical Circular Cylinder With Water Waves
Charaf Ouled Housseine, Sime Malenica, Guillaume De Hauteclocque, Xiao-Bo Chen
OMAE 2018; V009T13A032https://doi.org/10.1115/OMAE2018-78221
View Articletitled, Hydrodynamic Interactions of the Truncated Porous Vertical Circular Cylinder With Water Waves
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Topics: Circular cylinders , Water waves , Diffraction , Radiation (Physics) , Waves , Porosity , Boundary-value problems , Cylinders , Damping , Eigenfunctions
Green Water Assessment for Marine and Offshore Applications: Structural Response of the ULCS Breakwater
Šime Malenica, Byung Hyuk Lee, Nikola Vladimir, Inno Gatin, Charles Monroy, Jerome De Lauzon
OMAE 2018; V009T13A033https://doi.org/10.1115/OMAE2018-78432
View Articletitled, Green Water Assessment for Marine and Offshore Applications: Structural Response of the ULCS Breakwater
PDF
Topics: Breakwaters , Ocean engineering , Water , Floating bodies , Ships , Computer software , Containers , Design , Engineering simulation , Modeling
Effect of Surface Curvature on the Hydrodynamics of Water Entry at High Horizontal Velocity
Alessandro Iafrati
OMAE 2018; V009T13A034https://doi.org/10.1115/OMAE2018-78438
View Articletitled, Effect of Surface Curvature on the Hydrodynamics of Water Entry at High Horizontal Velocity
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Topics: Hydrodynamics , Water , Pressure , Flat plates , Stress , Air entrainment , Probes , Shapes , Aircraft , Cavitation
Solving 2-D Slamming Problems by the MPS Method With Source Term Correction
Ruosi Zha, Heather Peng, Wei Qiu
OMAE 2018; V009T13A035https://doi.org/10.1115/OMAE2018-78441
View Articletitled, Solving 2-D Slamming Problems by the MPS Method With Source Term Correction
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Topics: Computation , Fluid structure interaction , Fluids , Oscillations , Particulate matter , Pressure , Ships , Water , Wedges
Control Signal Optimization for Non-Linear Wave Generation
J. B. H. Hicks, H. B. Bingham, R. Read
OMAE 2018; V009T13A036https://doi.org/10.1115/OMAE2018-78520
View Articletitled, Control Signal Optimization for Non-Linear Wave Generation
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Topics: Nonlinear waves , Optimization , Signals , Waves , Flow (Dynamics) , Generators , Water , Wavelength , Wedges
Vertical Motion Response of a Submerged Body Induced by Interfacial Solitary Waves
Y. Gou, R. Wang, B. Teng
OMAE 2018; V009T13A037https://doi.org/10.1115/OMAE2018-78706
View Articletitled, Vertical Motion Response of a Submerged Body Induced by Interfacial Solitary Waves
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Topics: Waves , Buoyancy , Density , Circular cylinders , Computer simulation , Displacement , Drag (Fluid dynamics) , Equations of motion , Morison equation , Navigation
Performance of a Wave-Energy-Converter Array Operating Under Model-Predictive Control Based on a Convex Formulation
Qian Zhong, Ronald W. Yeung
OMAE 2018; V009T13A038https://doi.org/10.1115/OMAE2018-78739
View Articletitled, Performance of a Wave-Energy-Converter Array Operating Under Model-Predictive Control Based on a Convex Formulation
PDF
Topics: Economics , Engineering simulation , Engineering teachers , Machinery , Ocean waves , Optimization , Power converters , Quadratic programming , Seas , Simulation
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