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Proceedings Papers

Proceedings Volume Cover
ASME 2022 41st International Conference on Ocean, Offshore and Arctic Engineering
June 5–10, 2022
Hamburg, Germany
Conference Sponsors:
  • Ocean, Offshore and Arctic Engineering Division
ISBN:
978-0-7918-8586-4
Volume 2: Structures, Safety, and Reliability

Front Matter

OMAE2022 Front Matter
OMAE 2022; V002T00A001https://doi.org/10.1115/OMAE2022-FM2
View Articletitled, OMAE2022 Front Matter
PDF

Structures, Safety, and Reliability

Abnormal and Extreme Waves

Performance of the Observation-Based Source Terms in a High-Resolution Wave Hindcast for the North Sea
Henrique Rapizo, Qingxiang Liu, Alexander V. Babanin
OMAE 2022; V002T02A001https://doi.org/10.1115/OMAE2022-78512
View Articletitled, Performance of the Observation-Based Source Terms in a High-Resolution Wave Hindcast for the North Sea
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Topics: North Sea , Physics , Resolution (Optics) , Waves , Wind
Freak Wave Forecasting: A Data-Driven Approach
Thomas Breunung, Balakumar Balachandran
OMAE 2022; V002T02A002https://doi.org/10.1115/OMAE2022-78557
View Articletitled, Freak Wave Forecasting: A Data-Driven Approach
PDF
Topics: Waves
Analysis of Wave Fields During Ship Accidents in the North-Western Mediterranean
Alessio Innocenti, Gianni Messeri, Miguel Onorato, Carlo Brandini
OMAE 2022; V002T02A003https://doi.org/10.1115/OMAE2022-78661
View Articletitled, Analysis of Wave Fields During Ship Accidents in the North-Western Mediterranean
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Topics: Accidents , Ships , Waves , Seas , Computer simulation , Damage , Navigation , Ocean liners , Parametrization , Safety
Cyclonic Wave Field in the Bay of Bengal Region Under Changing Climate Scenarios
R. S. Bhavithra, S. A. Sannasiraj
OMAE 2022; V002T02A004https://doi.org/10.1115/OMAE2022-79092
View Articletitled, Cyclonic Wave Field in the Bay of Bengal Region Under Changing Climate Scenarios
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Topics: Climate , Waves
Introducing Observation-Based Physics Into the WAM Wave Model
Joshua Kousal, Qingxiang Liu, Joanna Staneva, Arno Behrens, Heinz Günther, Jean-Raymond Bidlot, Alexander V. Babanin
OMAE 2022; V002T02A005https://doi.org/10.1115/OMAE2022-79652
View Articletitled, Introducing Observation-Based Physics Into the WAM Wave Model
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Topics: Physics , Waves , Wind , Air flow , Energy dissipation , Oceans , Separation (Technology) , Significant wave heights , Turbulence , Water
A Reduced Order Parameterization of Random Wave Fields With Deterministic Wave Groups
Tianning Tang, Thomas A. A. Adcock
OMAE 2022; V002T02A006https://doi.org/10.1115/OMAE2022-80636
View Articletitled, A Reduced Order Parameterization of Random Wave Fields With Deterministic Wave Groups
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Topics: Parametrization , Waves , Shapes , Engineering simulation , Nonlinear waves , Simulation , Algorithms , Gravity (Force) , Physics
Shallow Water Nonlinear Waves: Their Wave Equations, Quasiperiodic Fourier Series Solutions and Statistical Distributions
Alfred R. Osborne, Uggo F. de Pinho, Børge Kvingedal, Gunnar Lian
OMAE 2022; V002T02A007https://doi.org/10.1115/OMAE2022-81191
View Articletitled, Shallow Water Nonlinear Waves: Their Wave Equations, Quasiperiodic Fourier Series Solutions and Statistical Distributions
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Topics: Fourier series , Nonlinear waves , Statistical distributions , Water , Wave equations , Water waves , Waves , Korteweg-de Vries equation , Ocean engineering , Dynamics (Mechanics)
Storm Models for the Calculation of Extreme Wind Speed
Valentina Laface, Felice Arena, Alessandra Romolo
OMAE 2022; V002T02A008https://doi.org/10.1115/OMAE2022-81323
View Articletitled, Storm Models for the Calculation of Extreme Wind Speed
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Topics: Storms , Wind velocity

Collision and Crashworthiness

Numerical Investigations on Plastic Responses of Strain-Rate Sensitive Panels Under the Lateral Impact
Hongyu Zhou, Deyu Wang
OMAE 2022; V002T02A009https://doi.org/10.1115/OMAE2022-78746
View Articletitled, Numerical Investigations on Plastic Responses of Strain-Rate Sensitive Panels Under the Lateral Impact
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Topics: Collisions (Physics) , Computer simulation , Crashworthiness , Displacement , Dynamic response , Flow (Dynamics) , Impact testing , Simulation results , Steel , Stress
Numerical Simulation of Dynamic and Static Mechanical Response of Sinusoidal Sandwich Structure
Houqi Yao, Jia Qu
OMAE 2022; V002T02A010https://doi.org/10.1115/OMAE2022-79142
View Articletitled, Numerical Simulation of Dynamic and Static Mechanical Response of Sinusoidal Sandwich Structure
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Topics: Compression , Computer simulation , Sandwich structures
Discretization Challenges in Crash Simulations: Mesh, Geometry and Failure Criterion Effects From the Energy Perspective
Okko Coppejans, Noud Werter
OMAE 2022; V002T02A011https://doi.org/10.1115/OMAE2022-79655
View Articletitled, Discretization Challenges in Crash Simulations: Mesh, Geometry and Failure Criterion Effects From the Energy Perspective
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Topics: Failure , Finite element analysis , Geometry , Simulation , Stress
A Semi-Analytical Methodology to Assess the Dynamic Elastic Response of a Monopile Offshore Wind Turbine Subjected to Low-Energy Ship Impacts
Icaro Ladeira, Hervé Le Sourne, Jonathan Moran, Priscilla Salazar
OMAE 2022; V002T02A012https://doi.org/10.1115/OMAE2022-79672
View Articletitled, A Semi-Analytical Methodology to Assess the Dynamic Elastic Response of a Monopile Offshore Wind Turbine Subjected to Low-Energy Ship Impacts
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Topics: Collisions (Physics) , Offshore wind turbines , Ships
Study on Protective Structure Penetrated by the Shaped-Charge Jet for Ship Hull
Jingjing Song, Jingxia Yue, Xiaobin Li, Runze Tan
OMAE 2022; V002T02A013https://doi.org/10.1115/OMAE2022-79898
View Articletitled, Study on Protective Structure Penetrated by the Shaped-Charge Jet for Ship Hull
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Topics: Hull , Ships , Simulation
Rapid Assessment of Ship Bottom Grounding Damage Considering Combined Surge and Heave Motion
Jean-Philippe Pineau, Hervé Le Sourne
OMAE 2022; V002T02A014https://doi.org/10.1115/OMAE2022-80209
View Articletitled, Rapid Assessment of Ship Bottom Grounding Damage Considering Combined Surge and Heave Motion
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Topics: Damage , Ships , Surges
Aspects of Collision Response of Long-Span Floating Bridges
Martin Storheim, Cato Dørum
OMAE 2022; V002T02A015https://doi.org/10.1115/OMAE2022-81112
View Articletitled, Aspects of Collision Response of Long-Span Floating Bridges
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Topics: Bridges (Structures) , Collisions (Physics) , Ships
Dynamic Analysis of Collision Between Two Floating Bodies Considering Hydrodynamic Loads
Burak Can Cerik, Joonmo Choung
OMAE 2022; V002T02A016https://doi.org/10.1115/OMAE2022-81221
View Articletitled, Dynamic Analysis of Collision Between Two Floating Bodies Considering Hydrodynamic Loads
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Topics: Collisions (Physics) , Dynamic analysis , Floating bodies , Stress , Ships , Simulation , Hydrostatics , Radiation (Physics) , Rigid-body mechanisms , Simulation models

Data-Driven Models for Marine Structures

Estimation of Still-Water Bending Moment of Ship Hull Girder Using Beam Finite Element Model and Ensemble Kalman Filter
Akira Tatsumi, Kazuhiro Iijima, Masahiko Fujikubo
OMAE 2022; V002T02A017https://doi.org/10.1115/OMAE2022-78630
View Articletitled, Estimation of Still-Water Bending Moment of Ship Hull Girder Using Beam Finite Element Model and Ensemble Kalman Filter
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Topics: Finite element model , Girders , Hull , Kalman filters , Ships , Stress , Water
Motion Response Prediction of Marine Vessels Based on Hydrodynamic Models Updated Through On-Site Measurements
Gowtham Radhakrishnan, Bernt J. Leira, Zhen Gao, Svein Sævik, Alojz Gomola
OMAE 2022; V002T02A018https://doi.org/10.1115/OMAE2022-78912
View Articletitled, Motion Response Prediction of Marine Vessels Based on Hydrodynamic Models Updated Through On-Site Measurements
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Topics: Spectra (Spectroscopy) , Vessels , Waves , Optimization , Uncertainty , Errors , North Sea , Ocean engineering , Physics
Artificial Neural Network Surrogate Modeling for Offshore Wind Turbines Under Multi-Hazards
Xiaowei Wang, YeongAe Heo
OMAE 2022; V002T02A019https://doi.org/10.1115/OMAE2022-81048
View Articletitled, Artificial Neural Network Surrogate Modeling for Offshore Wind Turbines Under Multi-Hazards
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Topics: Artificial neural networks , Hazards , Metamodeling , Offshore wind turbines
Automated Modal Parameters Identification During Ice-Structure Interactions
Chunlin Wang, Torodd Skjerve Nord, Guoyuan Li
OMAE 2022; V002T02A020https://doi.org/10.1115/OMAE2022-81075
View Articletitled, Automated Modal Parameters Identification During Ice-Structure Interactions
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Topics: Ice-structure interaction
An Impact Load Identification Method Based on Green’s Kernel Function
Xueqian Zhou, Yishi Xu, Yu Yang, Gang Lu, Huilong Ren
OMAE 2022; V002T02A021https://doi.org/10.1115/OMAE2022-81427
View Articletitled, An Impact Load Identification Method Based on Green’s Kernel Function
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Topics: Stress
A Study on the Error Characteristics and Compensation Algorithm for Strain Gauge in Ship Structure Monitoring Systems
Xueqian Zhou, Yu Yang, Yishi Xu, Chenfeng Li, Huilong Ren
OMAE 2022; V002T02A022https://doi.org/10.1115/OMAE2022-81437
View Articletitled, A Study on the Error Characteristics and Compensation Algorithm for Strain Gauge in Ship Structure Monitoring Systems
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Topics: Algorithms , Artificial neural networks , Errors , Monitoring systems , Ships , Strain gages
Digital Twin Based Structural Health Monitoring of Offshore Crane
Terje Rølvåg, Øystein Stranden
OMAE 2022; V002T02A023https://doi.org/10.1115/OMAE2022-85896
View Articletitled, Digital Twin Based Structural Health Monitoring of Offshore Crane
PDF
Topics: Cranes , Digital twin , Finite element analysis , Ocean engineering , Simulation , Structural health monitoring

Extreme Loading and Responses

Wave Impact Pressures on U-OWC Breakwater
Alessandra Romolo, Bruna Timpano, Valentina Laface, Vincenzo Fiamma, Felice Arena
OMAE 2022; V002T02A024https://doi.org/10.1115/OMAE2022-79148
View Articletitled, Wave Impact Pressures on U-OWC Breakwater
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Topics: Breakwaters , Stress , Waves
Short-Term Analysis of Ship Capsizing Probability in Random Seas
Wei Chai, Lin He, Bernt J. Leira, Chana Sinsabvarodom, Peiyuan Feng
OMAE 2022; V002T02A025https://doi.org/10.1115/OMAE2022-80098
View Articletitled, Short-Term Analysis of Ship Capsizing Probability in Random Seas
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Topics: Probability , Seas , Ships
Efficient Long-Term Extreme Response Analysis of Floating Bridges Using Multiple Timescale Spectral Analysis
Aksel Fenerci, Margaux Geuzaine, Vincent Denoël, Ole Øiseth
OMAE 2022; V002T02A026https://doi.org/10.1115/OMAE2022-80114
View Articletitled, Efficient Long-Term Extreme Response Analysis of Floating Bridges Using Multiple Timescale Spectral Analysis
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Topics: Bridges (Structures) , Emission spectroscopy , Spectroscopy , Waves
The Influence of Added Mass in Ship-Ice-Wave Interactions: A Potential Flow Hydromechanics Model
Zongyu Jiang, Fang Li, Tommi Mikkola, Pentti Kujala, Spyros Hirdaris
OMAE 2022; V002T02A027https://doi.org/10.1115/OMAE2022-80393
View Articletitled, The Influence of Added Mass in Ship-Ice-Wave Interactions: A Potential Flow Hydromechanics Model
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Topics: Boundary element methods , Flow (Dynamics) , Fluid mechanics , Ice , Ships , Waves
Prediction of Structural Damages and Armament Accelerations of a Surface Naval Ship due to Underwater Explosions
Hyunwoo Kim, Burak Can Cerik, Joonmo Choung
OMAE 2022; V002T02A028https://doi.org/10.1115/OMAE2022-80686
View Articletitled, Prediction of Structural Damages and Armament Accelerations of a Surface Naval Ship due to Underwater Explosions
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Topics: Damage , Explosions , Fracture (Materials) , Fracture (Process) , Ships , Weapons
Estimation of Design Slamming Loads From Laboratory Test of a Circular Cylinder
Gunnar Lian, Sverre Haver, Chris Swan
OMAE 2022; V002T02A029https://doi.org/10.1115/OMAE2022-80945
View Articletitled, Estimation of Design Slamming Loads From Laboratory Test of a Circular Cylinder
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Topics: Circular cylinders , Design , Probability , Seas , Stress
Prediction of Inclined Surface Spreading Extent for High Flashpoint Fuel in Large Compartments Under Ship Motion
Dae Yu Baeg, Hyun Ho Lee, Seung Yul Lee, Seon Jin Kim, Jeong Hwan Kim, Jung Kwan Seo
OMAE 2022; V002T02A030https://doi.org/10.1115/OMAE2022-81061
View Articletitled, Prediction of Inclined Surface Spreading Extent for High Flashpoint Fuel in Large Compartments Under Ship Motion
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Topics: Fuels , Liquid pool fires , Ships
Blast Loading Profile of Gaseous Hydrogen in Confined Space Under Various Leak Conditions
Seon Jin Kim, Hyun Ho Lee, Soung Woo Park, Dae Yu Baeg, Jeong Hwan Kim, Jung Kwan Seo
OMAE 2022; V002T02A031https://doi.org/10.1115/OMAE2022-81305
View Articletitled, Blast Loading Profile of Gaseous Hydrogen in Confined Space Under Various Leak Conditions
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Topics: Hydrogen , Leakage
Wave Impact on Semi-Submersible Units: A Review of Design Standards
Renjeev Gopalakrishnakurup
OMAE 2022; V002T02A032https://doi.org/10.1115/OMAE2022-81456
View Articletitled, Wave Impact on Semi-Submersible Units: A Review of Design Standards
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Topics: Design , Semi-submersible offshore structures , Waves

Fatigue and Fracture Reliability

The Influence of Edge Treatment on Fatigue Behavior of Thermal Cut Edges
Jan-Hendrik Grimm, Juliana Diniz e Castro, Hubertus von Selle, Moritz Braun, Franz von Bock und Polach, Sören Ehlers, Jonas Hensel, Ann-Christin Hesse, Klaus Dilger
OMAE 2022; V002T02A033https://doi.org/10.1115/OMAE2022-78431
View Articletitled, The Influence of Edge Treatment on Fatigue Behavior of Thermal Cut Edges
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Topics: Cutting , Fatigue , Fatigue testing , Steel , Yield strength
Numerical Study on Weld Magnification Method for a Semi-Circular Surface Crack Under an Arbitrary Stress Distribution
Phyo Myat Kyaw, Naoki Osawa, Satoyuki Tanaka, Ramy Gadallah
OMAE 2022; V002T02A034https://doi.org/10.1115/OMAE2022-78529
View Articletitled, Numerical Study on Weld Magnification Method for a Semi-Circular Surface Crack Under an Arbitrary Stress Distribution
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Topics: Magnification , Stress , Stress concentration , Surface cracks , Welded joints
Theoretical and Experimental Analysis on Low-Cycle Fatigue Crack Initiation for High Strength Steel Stiffened Plates
Jiankang Lei, Jingxia Yue, Zhiting Xu, Xuan Fang, Hongrui Liu
OMAE 2022; V002T02A035https://doi.org/10.1115/OMAE2022-79688
View Articletitled, Theoretical and Experimental Analysis on Low-Cycle Fatigue Crack Initiation for High Strength Steel Stiffened Plates
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Topics: Experimental analysis , Fracture (Materials) , High strength steel , Low cycle fatigue , Plates (structures) , Stress
Research on Fatigue Load Analysis and Fatigue Strength Assessment of Stern Shaft Bracket of Large Ship
Chen Xianyin, Wang Gaoxiang, Zhu Qingchun
OMAE 2022; V002T02A036https://doi.org/10.1115/OMAE2022-80212
View Articletitled, Research on Fatigue Load Analysis and Fatigue Strength Assessment of Stern Shaft Bracket of Large Ship
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Topics: Excitation , Fatigue , Fatigue strength , Fluid-dynamic forces , Propellers , Ships , Stress , Waves
Fatigue Assessment of Wind Assisted Propulsion Systems
Gaute Storhaug, Guilherme R. Borzacchiello, Hasso Hoffmeister
OMAE 2022; V002T02A037https://doi.org/10.1115/OMAE2022-80511
View Articletitled, Fatigue Assessment of Wind Assisted Propulsion Systems
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Topics: Fatigue , Propulsion systems , Wind
Fatigue Assessment of Pump Tower in LNG Membrane Tanks
Gaute Storhaug, Hui Sun, Yuelong Zang, Olav Rognebakke
OMAE 2022; V002T02A038https://doi.org/10.1115/OMAE2022-81275
View Articletitled, Fatigue Assessment of Pump Tower in LNG Membrane Tanks
PDF
Topics: Computational fluid dynamics , Fatigue , Liquefied natural gas , Membranes , Pumps , Sloshing
Mooring Fatigue Damage Prediction Based on Importance Sampling
Siril Okkenhaug, Daniel Merino Hoyos, Eivind Tørset Magnussen, Michael Macke
OMAE 2022; V002T02A039https://doi.org/10.1115/OMAE2022-81441
View Articletitled, Mooring Fatigue Damage Prediction Based on Importance Sampling
PDF
Topics: Fatigue damage , Mooring
New Findings on the Impact of the Idealization of Corrosion on the Brittle Failure of Steel
Michael Biglu, Franz von Bock und Polach, Sören Ehlers
OMAE 2022; V002T02A040https://doi.org/10.1115/OMAE2022-82014
View Articletitled, New Findings on the Impact of the Idealization of Corrosion on the Brittle Failure of Steel
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Topics: Brittleness , Corrosion , Failure , Finite element analysis , Steel

Probabilistic and Spectral Wave Models

Analyzing Extreme Sea State Conditions by Time-Series Simulation
Erik Vanem
OMAE 2022; V002T02A041https://doi.org/10.1115/OMAE2022-78795
View Articletitled, Analyzing Extreme Sea State Conditions by Time-Series Simulation
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Topics: Seas , Significant wave heights , Simulation , Time series , Waves
High Frequency Tail in Measured Wave Spectra of Steep to Breaking Sea States
Jule Scharnke, Kevin Ewans, Cagil Kirezci, Alexander Babanin
OMAE 2022; V002T02A042https://doi.org/10.1115/OMAE2022-79053
View Articletitled, High Frequency Tail in Measured Wave Spectra of Steep to Breaking Sea States
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Topics: Seas , Spectra (Spectroscopy) , Waves , Engineering simulation , Nonlinear waves , Simulation , Energy dissipation , Physics , Wind
MCMC Based Probabilistic Wave Spectrum Estimation Using Onboard Measurement Data
Myong-Jin Park, Yooil Kim
OMAE 2022; V002T02A043https://doi.org/10.1115/OMAE2022-80627
View Articletitled, MCMC Based Probabilistic Wave Spectrum Estimation Using Onboard Measurement Data
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Topics: Chain , Probability , Simulation , Waves

Probabilistic Response Models

The Impact of Climate Change on Offshore Operations and Design Considerations for Offshore Vessels and Installations
Jordan Rosen, Andrew Kilner, Jonathan Gumley, Kanishka Jayasinghe, Hemant Thurumella
OMAE 2022; V002T02A044https://doi.org/10.1115/OMAE2022-79274
View Articletitled, The Impact of Climate Change on Offshore Operations and Design Considerations for Offshore Vessels and Installations
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Topics: Climate change , Design , Ocean engineering , Vessels
Wave Attenuation Performance of Arranging a Rectangular Buoy in a Perforated Caisson Using Quadratic Pressure Drop Condition
Yuhan Wang, Sheng Dong
OMAE 2022; V002T02A045https://doi.org/10.1115/OMAE2022-79289
View Articletitled, Wave Attenuation Performance of Arranging a Rectangular Buoy in a Perforated Caisson Using Quadratic Pressure Drop Condition
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Topics: Buoys , Caissons , Pressure drop , Waves
Short-Term Extreme Response Prediction for a Jacket Platform Subjected to Nonlinear Wave Loads
Wei Chai, Xiangpeng Yu, Bernt J. Leira, Jian Gu
OMAE 2022; V002T02A046https://doi.org/10.1115/OMAE2022-80095
View Articletitled, Short-Term Extreme Response Prediction for a Jacket Platform Subjected to Nonlinear Wave Loads
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Topics: Nonlinear waves , Stress
A Risk-Based Approach to Determine Mobile Offshore Drilling Unit Disconnect Criteria
Stian Garlid, Torfinn Hørte, Lorents Reinås
OMAE 2022; V002T02A047https://doi.org/10.1115/OMAE2022-81122
View Articletitled, A Risk-Based Approach to Determine Mobile Offshore Drilling Unit Disconnect Criteria
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Topics: Mobile offshore drilling units , Risk , Vessels , Drilling , Dynamic response , Event history analysis , Ocean engineering , Probability , Water
A Kalman Filtering Technique for Prediction of Wave Time Histories Around Ship Based on Response Measurements and its Experimental Validation
Yusuke Komoriyama, Kazuhiro Iijima, Masahiko Fujikubo
OMAE 2022; V002T02A048https://doi.org/10.1115/OMAE2022-82308
View Articletitled, A Kalman Filtering Technique for Prediction of Wave Time Histories Around Ship Based on Response Measurements and its Experimental Validation
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Topics: Filtration , Kalman filters , Ships , Waves

Reliability of Mooring and Riser Systems

Predicting the Dynamic Response of a Steel Lazy Wave Riser in the Time Domain Using Artificial Neural Networks
Ankang Cheng, Ying Min Low
OMAE 2022; V002T02A049https://doi.org/10.1115/OMAE2022-78405
View Articletitled, Predicting the Dynamic Response of a Steel Lazy Wave Riser in the Time Domain Using Artificial Neural Networks
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Topics: Artificial neural networks , Dynamic response , Pipeline risers , Risers (Casting) , Steel , Waves
The Effect of Pitting Corrosion on Fatigue Performance of Mooring Line Chain Links
Filipe A. Rezende, Marina L. Simão, Paulo M. Videiro, Luis V. S. Sagrilo
OMAE 2022; V002T02A050https://doi.org/10.1115/OMAE2022-78408
View Articletitled, The Effect of Pitting Corrosion on Fatigue Performance of Mooring Line Chain Links
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Topics: Chain , Corrosion , Fatigue , Finite element analysis , Mooring
An Artificial Neural Network Approach for Fatigue Analysis of Slender Marine Structures
Thiago Camargo Rodrigues, Gabriel Mattos Gonzalez, Luis Volnei Sudati Sagrilo
OMAE 2022; V002T02A051https://doi.org/10.1115/OMAE2022-78468
View Articletitled, An Artificial Neural Network Approach for Fatigue Analysis of Slender Marine Structures
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Topics: Artificial neural networks , Fatigue , Fatigue analysis , Marine structures , Pipeline risers , Risers (Casting)
Modified Environmental Contours Approach for Long-Term Extreme Response Prediction of Marine Risers
Qingqing Miao, Ying Min Low
OMAE 2022; V002T02A052https://doi.org/10.1115/OMAE2022-78640
View Articletitled, Modified Environmental Contours Approach for Long-Term Extreme Response Prediction of Marine Risers
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Topics: Complex systems , Floating structures , Manufacturing systems , Marine drilling risers , Mooring , Offshore structures , Pipeline risers , Reliability , Risers (Casting) , Significant wave heights
Implementation of a Thorough Treatment of Chain Out-of-Plane (OPB) Bending Fatigue With Chainwheel Interaction
Justin Jones, Ian Childs
OMAE 2022; V002T02A053https://doi.org/10.1115/OMAE2022-78650
View Articletitled, Implementation of a Thorough Treatment of Chain Out-of-Plane (OPB) Bending Fatigue With Chainwheel Interaction
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Topics: Chain , Fatigue , Mooring
A Monte Carlo Approach for Fatigue Analysis of Mooring Lines Subjected to Simultaneous Environmental Actions
Pedro de Amorim Seabra, Mauro Costa de Oliveira, Marina Leivas Simão, Paulo Mauricio Videiro, Luis Volnei Sudati Sagrilo
OMAE 2022; V002T02A054https://doi.org/10.1115/OMAE2022-79098
View Articletitled, A Monte Carlo Approach for Fatigue Analysis of Mooring Lines Subjected to Simultaneous Environmental Actions
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Topics: Fatigue analysis , Mooring
A Hybrid Time-Frequency Domain Approach for Estimating Mooring Lines Dynamic Response
Marina Leivas Simão, Marcos Queija de Siqueira, Thiago Ângelo Gonçalves de Lacerda, Paulo Maurício Videiro, Luis Volnei Sudati Sagrilo
OMAE 2022; V002T02A055https://doi.org/10.1115/OMAE2022-79118
View Articletitled, A Hybrid Time-Frequency Domain Approach for Estimating Mooring Lines Dynamic Response
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Topics: Dynamic response , Mooring
Restoration Models for Quantifying Resilience of FPS Under Mooring Failure
Jingyi Wu, Yang Yu, Jianxing Yu, Lixin Xu, Fanlei Wu, Xueying Chang
OMAE 2022; V002T02A056https://doi.org/10.1115/OMAE2022-81033
View Articletitled, Restoration Models for Quantifying Resilience of FPS Under Mooring Failure
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Topics: Failure , Mooring , Resilience
Recommendations for a Fatigue Design Analysis Calibrated Using Structural Reliability Analysis
Torfinn Hørte, Siril Okkenhaug
OMAE 2022; V002T02A057https://doi.org/10.1115/OMAE2022-81463
View Articletitled, Recommendations for a Fatigue Design Analysis Calibrated Using Structural Reliability Analysis
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Topics: Event history analysis , Fatigue design , Mooring , Safety , Fatigue , Reliability , Chain , Fatigue analysis , Fatigue limit , Seas
Analysis of Chain Fatigue Test Data for New and Used Mooring Chains
Torfinn Hørte, Limin Yang, Siril Okkenhaug
OMAE 2022; V002T02A058https://doi.org/10.1115/OMAE2022-81465
View Articletitled, Analysis of Chain Fatigue Test Data for New and Used Mooring Chains
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Topics: Chain , Corrosion , Fatigue testing , Mooring , Tension

Reliability of Renewable Energy Systems

Analysis of Life Extension Performance Metrics for Offshore Wind Assets
Baran Yeter, Yordan Garbatov, Carlos Guedes Soares
OMAE 2022; V002T02A059https://doi.org/10.1115/OMAE2022-78184
View Articletitled, Analysis of Life Extension Performance Metrics for Offshore Wind Assets
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Topics: Life extension , Ocean engineering , Optimization , Wind
Optimal Management of Offshore Wind Assets at Different Stages of Life Extension Accounting for Uncertainty Propagation
Baran Yeter, Yordan Garbatov, Carlos Guedes Soares
OMAE 2022; V002T02A060https://doi.org/10.1115/OMAE2022-78185
View Articletitled, Optimal Management of Offshore Wind Assets at Different Stages of Life Extension Accounting for Uncertainty Propagation
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Topics: Accounting , Life extension , Ocean engineering , Offshore wind turbines , Uncertainty , Wind

Risk Analysis and Management

Genetic Algorithms Applied to the Concept of Risk Based Inspection (RBI): Optimization of Inspection Plans
Carlos Henrique Bittencourt Morais, Elcio Abrahão, Marcos Coelho Maturana, Marcelo Ramos Martins, André Luis Debiaso Rossi, Adriana Miralles Schleder, Fernanda Marques de Moura, Leonardo Oliveira de Barros, Rene Thiago Capelari Orlowski
OMAE 2022; V002T02A061https://doi.org/10.1115/OMAE2022-78612
View Articletitled, Genetic Algorithms Applied to the Concept of Risk Based Inspection (RBI): Optimization of Inspection Plans
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Topics: Genetic algorithms , Inspection , Ocean engineering , Optimization , Risk-based inspection
Temperature Reduction on LNG Bunkering Ship Structure Under Accidental Cryogenic Gas Release Using CFD Simulation
Haris Nubli, Jung Min Sohn, Dongho Jung
OMAE 2022; V002T02A062https://doi.org/10.1115/OMAE2022-78729
View Articletitled, Temperature Reduction on LNG Bunkering Ship Structure Under Accidental Cryogenic Gas Release Using CFD Simulation
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Topics: Computational fluid dynamics , Leakage , Liquefied natural gas , Ships , Simulation , Temperature
Risk Assessment of Collision Between Dynamically Positioned Vessel and Offshore Installation
Haibo Chen, Bjørn Nygård, Nils Hasund
OMAE 2022; V002T02A063https://doi.org/10.1115/OMAE2022-78952
View Articletitled, Risk Assessment of Collision Between Dynamically Positioned Vessel and Offshore Installation
PDF
Topics: Collisions (Physics) , Density , Offshore installations , Risk , Risk assessment , Vessels
Sensitivity Analysis of a Corrosion Prediction Model Using Monte Carlo Simulation
Stephane S. M. Santos, Gilberto F. M. Souza, Leonardo Oliveira de Barros, Rene Thiago Capelari Orlowski, Marcelo R. Martins, Adriana M. Schleder
OMAE 2022; V002T02A064https://doi.org/10.1115/OMAE2022-79179
View Articletitled, Sensitivity Analysis of a Corrosion Prediction Model Using Monte Carlo Simulation
PDF
Topics: Corrosion , Sensitivity analysis , Simulation

Risk Based Maintenance

Inspection and Maintenance Planning for Offshore Wind Support Structures: Modelling Reliability and Inspection Costs at the System Level
Felipe Giro, Jose Mishael, Pablo G. Morato, Philippe Rigo
OMAE 2022; V002T02A065https://doi.org/10.1115/OMAE2022-78269
View Articletitled, Inspection and Maintenance Planning for Offshore Wind Support Structures: Modelling Reliability and Inspection Costs at the System Level
PDF
Topics: Fatigue , Inspection , Maintenance , Modeling , Ocean engineering , Reliability , Wind
Methodology for Defining Risk Indices Applicable to Subsea Equipment
Marcos Coelho Maturana, Adriana Miralles Schleder, Paulo Fernando Ferreira Frutuoso e Melo, Marcelo Ramos Martins, Leonardo Oliveira de Barros
OMAE 2022; V002T02A066https://doi.org/10.1115/OMAE2022-79316
View Articletitled, Methodology for Defining Risk Indices Applicable to Subsea Equipment
PDF
Topics: Acceptance criteria , Ocean engineering , Risk , Risk-based inspection

Structural Analysis and Optimization

Approach to Simulate Fluid-Structure Interaction of a Ship in 3-Dimensional Numerical Towing Tank
Yasuhira Yamada, Ma Chong
OMAE 2022; V002T02A067https://doi.org/10.1115/OMAE2022-78638
View Articletitled, Approach to Simulate Fluid-Structure Interaction of a Ship in 3-Dimensional Numerical Towing Tank
PDF
Topics: Fluid structure interaction , Model basin , Ships
Structural Optimization of Ships: Benchmark Study of Metaheuristic Algorithms and Constraint Handling Approaches
Yuecheng Cai, Jasmin Jelovica
OMAE 2022; V002T02A068https://doi.org/10.1115/OMAE2022-79199
View Articletitled, Structural Optimization of Ships: Benchmark Study of Metaheuristic Algorithms and Constraint Handling Approaches
PDF
Topics: Algorithms , Ships , Structural optimization
Topology Optimization of Joints Between Prismatic Sandwich Panels and Girders Under In-Plane and Bending Loads
Shengyu Yan, Jasmin Jelovica
OMAE 2022; V002T02A069https://doi.org/10.1115/OMAE2022-79418
View Articletitled, Topology Optimization of Joints Between Prismatic Sandwich Panels and Girders Under In-Plane and Bending Loads
PDF
Topics: Girders , Optimization , Stress , Topology
Crack Propagation in Dynamic Power Cables
Zhiyuan Li, Jonas W. Ringsberg, Erland Johnson, Yuriy Serdyuk
OMAE 2022; V002T02A070https://doi.org/10.1115/OMAE2022-79467
View Articletitled, Crack Propagation in Dynamic Power Cables
PDF
Topics: Cables , Crack propagation , Electric fields , Ocean engineering , Stress , Water
Position Specific Monopile Fatigue Load in the Frequency Domain
Niels Christian Dahl, Richard Thyssen Nørby Larsen, Jan Høgsberg, Martin Bjerre Nielsen
OMAE 2022; V002T02A071https://doi.org/10.1115/OMAE2022-79907
View Articletitled, Position Specific Monopile Fatigue Load in the Frequency Domain
PDF
Topics: Fatigue , Stress , Waves , Design , Dynamics (Mechanics) , Frequency-domain analysis , Offshore wind turbines , Turbines , Wind farms
A Strategy for the Reduction of Structural Weight of Composite Vessels
Marco Gaiotti, Gianmarco Vergassola, Tatiana Pais
OMAE 2022; V002T02A072https://doi.org/10.1115/OMAE2022-80387
View Articletitled, A Strategy for the Reduction of Structural Weight of Composite Vessels
PDF
Topics: Composite materials , Vessels , Weight (Mass)

Ultimate Strength

Analysis of Welding Influences on Extruded Aluminum Panel Buckling
Xintong Wang, Jørgen Amdahl
OMAE 2022; V002T02A073https://doi.org/10.1115/OMAE2022-78575
View Articletitled, Analysis of Welding Influences on Extruded Aluminum Panel Buckling
PDF
Topics: Aluminum , Buckling , Stress , Welding
Bottom Lateral Pressure Effect on the Ultimate Bending Moment of the Scaled Hull Girders
Hongyang Ma, Qi Wan, Deyu Wang
OMAE 2022; V002T02A074https://doi.org/10.1115/OMAE2022-78671
View Articletitled, Bottom Lateral Pressure Effect on the Ultimate Bending Moment of the Scaled Hull Girders
PDF
Topics: Finite element analysis , Girders , Hull , Pressure
Nonlinear Distortion Nature of the Collapse Behaviors for Geometrically Distorted Thin-Walled Hull Girder Subjected to Combined Loads
Qinghu Wang, Deyu Wang
OMAE 2022; V002T02A075https://doi.org/10.1115/OMAE2022-78932
View Articletitled, Nonlinear Distortion Nature of the Collapse Behaviors for Geometrically Distorted Thin-Walled Hull Girder Subjected to Combined Loads
PDF
Topics: Collapse , Girders , Hull , Stress
Ultimate Strength Characteristics of Cylindrical Shell in Combined Compression and Bending Moment
Shen Li, Do Kyun Kim, Simon Benson
OMAE 2022; V002T02A076https://doi.org/10.1115/OMAE2022-79566
View Articletitled, Ultimate Strength Characteristics of Cylindrical Shell in Combined Compression and Bending Moment
PDF
Topics: Compression , Pipes , Stress , Tensile strength , Offshore wind turbines , Buckling , Climate change , Collapse , Design , Emissions
American and European Hydrostatic Tubular Beam-Column Equation Comparisons
Albert Ku, Mark Richmond
OMAE 2022; V002T02A077https://doi.org/10.1115/OMAE2022-79773
View Articletitled, American and European Hydrostatic Tubular Beam-Column Equation Comparisons
PDF
Topics: American Petroleum Institute , Hydrostatics
Numerical Investigations on Ultimate Strength of a Double Hull VLCC Under Combined Loads and Initial Imperfections
Thomas Lindemann, Bright Ebikemefa Okpeke, Alessandro La Ferlita, Markus Mühmer, Patrick Kaeding
OMAE 2022; V002T02A078https://doi.org/10.1115/OMAE2022-80204
View Articletitled, Numerical Investigations on Ultimate Strength of a Double Hull VLCC Under Combined Loads and Initial Imperfections
PDF
Topics: Damage , Finite element analysis , Hull , Stress , Tankers , Tensile strength , Welding
Modification of Double Bottom Height and Its Effect to the Ultimate Strength
Muhammad Zubair Muis Alie, Indah Melati Suci, Andi Muhammad Alfian Arafat, Juswan, Wahyuddin Mustafa
OMAE 2022; V002T02A079https://doi.org/10.1115/OMAE2022-79120
View Articletitled, Modification of Double Bottom Height and Its Effect to the Ultimate Strength
PDF
Topics: Tankers , Tensile strength
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