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Proceedings Papers

Proceedings Volume Cover
ASME 2022 Pressure Vessels & Piping Conference
July 17–22, 2022
Las Vegas, Nevada, USA
Conference Sponsors:
  • Pressure Vessels and Piping Division
ISBN:
978-0-7918-8616-8
Volume 3: Fluid-Structure Interaction; High Pressure Technology

Front Matter

PVP2022 Front Matter
PVP 2022; V003T00A001https://doi.org/10.1115/PVP2022-FM3
View Articletitled, PVP2022 Front Matter
PDF

Fluid-Structure Interaction

Flow-Induced Vibrations

Fluid-Structure Simulations of Vortex Shedding Induced Vibrations on Two In-Line Cylinders in Water Cross-Flow
Daniele Vivaldi
PVP 2022; V003T04A001https://doi.org/10.1115/PVP2022-81751
View Articletitled, Fluid-Structure Simulations of Vortex Shedding Induced Vibrations on Two In-Line Cylinders in Water Cross-Flow
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Topics: Cross-flow , Cylinders , Fluids , Simulation , Vibration , Vortex shedding , Water , Resonance , Engineering simulation , Fluid structure interaction
Assessment of an Euler-Bernoulli Beam Model Coupled to CFD in Order to Perform Fluid-Structure Simulations
Daniele Vivaldi, Guillaume Ricciardi
PVP 2022; V003T04A002https://doi.org/10.1115/PVP2022-81755
View Articletitled, Assessment of an Euler-Bernoulli Beam Model Coupled to CFD in Order to Perform Fluid-Structure Simulations
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Topics: Computational fluid dynamics , Engineering simulation , Fluids , Simulation , Cylinders , Fluid structure interaction , Finite element model , Nuclear power stations , Vibration , Water
Flow-Induced Vibration Simulations of a Straight Tube Bundle in Water Cross-Flow, Through URANS Approach
Daniele Vivaldi, Jean Baccou
PVP 2022; V003T04A003https://doi.org/10.1115/PVP2022-81757
View Articletitled, Flow-Induced Vibration Simulations of a Straight Tube Bundle in Water Cross-Flow, Through URANS Approach
PDF
Topics: Cross-flow , Engineering simulation , Flow-induced vibrations , Simulation , Water , Fluids , Computer simulation , Vibration , Turbulence , Boilers
Experimental Study on Flow-Induced Vibration Control of Multiple Cylinders in Tandem With Helical Strakes
Bowen Tang, Xiantao Fan, Wei Tan
PVP 2022; V003T04A004https://doi.org/10.1115/PVP2022-84443
View Articletitled, Experimental Study on Flow-Induced Vibration Control of Multiple Cylinders in Tandem With Helical Strakes
PDF
Topics: Cylinders , Flow-induced vibrations
An Investigation on Vortex Induced Vibration and Wake Induced Galloping in Tandem Cylinders System
Kai Guo, Yuxuan Cheng, Xiantao Fan, Hongsheng Zhang, Wei Tan
PVP 2022; V003T04A005https://doi.org/10.1115/PVP2022-84537
View Articletitled, An Investigation on Vortex Induced Vibration and Wake Induced Galloping in Tandem Cylinders System
PDF
Topics: Cylinders , Flow-induced vibrations , Vortex-induced vibration , Wakes
Multiphase Flow Induced Forces for Horizontal and Vertical Systems
Hajo Pereboom, Stefan Belfroid
PVP 2022; V003T04A006https://doi.org/10.1115/PVP2022-84631
View Articletitled, Multiphase Flow Induced Forces for Horizontal and Vertical Systems
PDF
Topics: Multiphase flow , Vibration
Experience Measuring Acoustic Induced and Flow Induced Vibration in a Blowdown Type System
Chris Middleton, Daniel Eilers, Denis Karczub, Rob Swindell, Nick Horder, Hisao Izuchi, J. Adin Mann
PVP 2022; V003T04A007https://doi.org/10.1115/PVP2022-84903
View Articletitled, Experience Measuring Acoustic Induced and Flow Induced Vibration in a Blowdown Type System
PDF
Topics: Acoustics , Flow-induced vibrations , Vibration
Control of Vortex Shedding and Acoustic Resonance of a Circular Cylinder in Cross-Flow
Rasha Noufal, Mohammed Alziadeh, Atef Mohany
PVP 2022; V003T04A008https://doi.org/10.1115/PVP2022-84907
View Articletitled, Control of Vortex Shedding and Acoustic Resonance of a Circular Cylinder in Cross-Flow
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Topics: Acoustics , Circular cylinders , Cross-flow , Resonance , Vortex shedding
Predicting Pressure Relief Valve Generated Acoustic Induced Pipe Wall Vibration
Rob Swindell, Hisao Izuchi, Denis Karczub, Daniel Eilers, J. Adin Mann
PVP 2022; V003T04A009https://doi.org/10.1115/PVP2022-84916
View Articletitled, Predicting Pressure Relief Valve Generated Acoustic Induced Pipe Wall Vibration
PDF
Topics: Acoustics , Pipes , Relief valves , Vibration
Combining Acoustic Induced Vibration and Flow Induced Vibration
Hisao Izuchi, Rob Swindell, Adin Mann
PVP 2022; V003T04A010https://doi.org/10.1115/PVP2022-84921
View Articletitled, Combining Acoustic Induced Vibration and Flow Induced Vibration
PDF
Topics: Acoustics , Fatigue life , Flow-induced vibrations , Vibration
Effect of Pitch Ratio and Flat Bar Support Conditions on FEI Threshold for Low MDP Parallel Triangular Array – Single-Phase Water-Flow
Amro Elhelaly, Marwan Hassan, David Weaver, Soha Eid Moussa
PVP 2022; V003T04A011https://doi.org/10.1115/PVP2022-86694
View Articletitled, Effect of Pitch Ratio and Flat Bar Support Conditions on FEI Threshold for Low MDP Parallel Triangular Array – Single-Phase Water-Flow
PDF
Topics: Flow (Dynamics) , Water , Brass (Metal) , Clearances (Engineering) , Damping , Flow-induced vibrations , Instrumentation , Nuclear reactor steam generators , Rods , Stability

FSI Design for Industry

Fluid-Structure Interaction Analysis of a Peristaltic Pump by Using Numerical and Experimental Methods
Qingye Li, Chaoyong Zong, Jianhua Zhang, Yanfeng Zhang, Xueguan Song
PVP 2022; V003T04A012https://doi.org/10.1115/PVP2022-84409
View Articletitled, Fluid-Structure Interaction Analysis of a Peristaltic Pump by Using Numerical and Experimental Methods
PDF
Topics: Computer simulation , Elasticity , Experimental methods , Fluid structure interaction , Pumps

International Symposium on Emerging Technologies

Forward and Inverse Problems in Transient Responses of Plates Under Impact Loadings
Ming Ji, Kazuaki Inaba
PVP 2022; V003T04A013https://doi.org/10.1115/PVP2022-83685
View Articletitled, Forward and Inverse Problems in Transient Responses of Plates Under Impact Loadings
PDF
Topics: Inverse problems , Plates (structures) , Transients (Dynamics) , Wavelets

Structures Under Extreme Loading Conditions

A Fragment Impact Simulation for a Turbomolecular Vacuum Pump Blade Failure Event
Robert Valdiviez
PVP 2022; V003T04A014https://doi.org/10.1115/PVP2022-82066
View Articletitled, A Fragment Impact Simulation for a Turbomolecular Vacuum Pump Blade Failure Event
PDF
Topics: Blades , Failure , Simulation , Vacuum pumps
Towards a Probabilistic Analysis of Pressurized Thermal Shock
C. D. Versteylen, N. B. Siccama, H. J. Uitslag-Doolaard, F. Brigante, E. Pallaoro, F. H. E. De Haan - De Wilde
PVP 2022; V003T04A015https://doi.org/10.1115/PVP2022-84287
View Articletitled, Towards a Probabilistic Analysis of Pressurized Thermal Shock
PDF
Topics: Thermal shock , Fracture (Materials) , Stress , Reactor vessels , Computational fluid dynamics , Simulation , Brittleness , Fluids , Probability , Finite element methods
Clearing Effect of Blast Loads from PVBs
Jihui Geng, J. Kelly Thomas
PVP 2022; V003T04A016https://doi.org/10.1115/PVP2022-84288
View Articletitled, Clearing Effect of Blast Loads from PVBs
PDF
Topics: Blast effect , Waves , Explosions , Databases , Dimensions , Modeling , Pressure vessels , Reflection , Roofs
Assessment of Gaseous Detonations in Piping Systems and Pipelines
Keith Clutter, Derrick Pease, George Antaki
PVP 2022; V003T04A017https://doi.org/10.1115/PVP2022-84291
View Articletitled, Assessment of Gaseous Detonations in Piping Systems and Pipelines
PDF
Topics: Explosions , Pipelines , Piping systems , Pressure

Thermal Hydraulic Phenomena With Vessels, Piping, and Components

A Critique of Steam Hammer Load Analysis Methods
Trey W. Walters
PVP 2022; V003T04A018https://doi.org/10.1115/PVP2022-83715
View Articletitled, A Critique of Steam Hammer Load Analysis Methods
PDF
Topics: Pipes , Steam hammers , Stress
Improved Method of Estimating Steam Hammer Loads
Trey W. Walters
PVP 2022; V003T04A019https://doi.org/10.1115/PVP2022-83717
View Articletitled, Improved Method of Estimating Steam Hammer Loads
PDF
Topics: Compressible flow , Pipes , Steam hammers , Stress , Transients (Dynamics)
The Impact of Perforation on the Fracture Propagation of Horizontal Well Multistage Fracturing in the Roof of Broken Soft Coal Seams
Xuejiao Li, Haifeng Zhao, Changsong Liu, Junbing Zhong, Chaowei Wang, Yalong He
PVP 2022; V003T04A020https://doi.org/10.1115/PVP2022-84407
View Articletitled, The Impact of Perforation on the Fracture Propagation of Horizontal Well Multistage Fracturing in the Roof of Broken Soft Coal Seams
PDF
Topics: Coal , Fracture (Process) , Roofs
Numerical Simulation of Complex Fracture Network Propagation in Shallow Bright-Type Coal Seams in Hancheng Block, China
Haifeng Zhao, Xuejiao Li, Xiaohua Wang, Pengyue Li, Likai Zhu, Qingjiu Zhang
PVP 2022; V003T04A021https://doi.org/10.1115/PVP2022-84411
View Articletitled, Numerical Simulation of Complex Fracture Network Propagation in Shallow Bright-Type Coal Seams in Hancheng Block, China
PDF
Topics: China , Coal , Computer simulation , Fluids , Fracture (Materials) , Fracture (Process) , Hydraulic fracturing , Methane
Dancing Manhole-Cover Basics
Niels F. van de Meulenhof, Arris S. Tijsseling, Jose G. Vasconcelos
PVP 2022; V003T04A022https://doi.org/10.1115/PVP2022-84546
View Articletitled, Dancing Manhole-Cover Basics
PDF
Topics: Hinges , Manholes , Water
Study on Leakage Monitoring Method of Supercritical CO2 Long-Distance Pipeline
Xiaolu Guo, Zhichao Fan, Shuangqing Xu
PVP 2022; V003T04A023https://doi.org/10.1115/PVP2022-84698
View Articletitled, Study on Leakage Monitoring Method of Supercritical CO<sub>2</sub> Long-Distance Pipeline
PDF
Topics: Leakage , Pipelines , Supercritical carbon dioxide
Accurately Predicting Transient Fluid Forces in Piping Systems Part 1: Fundamentals
Scott A. Lang, Trey W. Walters
PVP 2022; V003T04A024https://doi.org/10.1115/PVP2022-84740
View Articletitled, Accurately Predicting Transient Fluid Forces in Piping Systems Part 1: Fundamentals
PDF
Topics: Fluids , Piping systems , Stress , Transients (Dynamics) , Pressure , Waves , Acoustics , Gas flow , Knudsen number , Pipes
Accurately Predicting Transient Fluid Forces in Piping Systems Part 2: Applications
Scott A. Lang, Trey W. Walters
PVP 2022; V003T04A025https://doi.org/10.1115/PVP2022-84748
View Articletitled, Accurately Predicting Transient Fluid Forces in Piping Systems Part 2: Applications
PDF
Topics: Fluids , Piping systems , Transients (Dynamics) , Stress , Acoustics , Errors , Pipes , Pressure

High Pressure Technology

Design and Analysis of High-Pressure Equipment for Industry

Analysis of Pressure Pulsation in Hypercompressor Pipeline
Maofei Geng, Jun Xiao, Zegang Qian, Shuai Liu, Chengyan Zhang, Le Wang, Xiaoling Yu, Haihong Wang
PVP 2022; V003T05A001https://doi.org/10.1115/PVP2022-83744
View Articletitled, Analysis of Pressure Pulsation in Hypercompressor Pipeline
PDF
Topics: Pipelines , Pressure
High Pressure Connections Bolt Tightening – Requirements, Challenges, Problems, and Solution Proposition
Przemyslaw Lutkiewicz, Finn Kirkemo, David Robertson
PVP 2022; V003T05A002https://doi.org/10.1115/PVP2022-84166
View Articletitled, High Pressure Connections Bolt Tightening – Requirements, Challenges, Problems, and Solution Proposition
PDF
Topics: American Petroleum Institute , Clamps (Tools) , Clearances (Engineering) , Electromagnetic scattering , Engineering standards , Finite element analysis , Flange connections , Flanges , High pressure (Physics) , Load bearing capacity
Fugitive Emission for Different Seals and Flange Designs – Test Results and Design Prediction
Stuart Wellings, Przemyslaw Lutkiewicz, David Robertson
PVP 2022; V003T05A003https://doi.org/10.1115/PVP2022-84173
View Articletitled, Fugitive Emission for Different Seals and Flange Designs – Test Results and Design Prediction
PDF
Topics: Design , Emissions , Finite element analysis , Flanges , Testing

Design and Analysis of High-Pressure Equipment for Oil and Gas Exploration and Production

Stress Evaluation of a Three-Point Supported Heat Exchanger
Senthil Kumar Raman
PVP 2022; V003T05A004https://doi.org/10.1115/PVP2022-84588
View Articletitled, Stress Evaluation of a Three-Point Supported Heat Exchanger
PDF
Topics: Finite element analysis , Heat exchangers , Stress
Effect of Trapped Fluid on Expandable Liner Hanger Performance in Geothermal Applications
Shengjun Yin, Allan Zhong, M. D. Abir, Abdolreza Gharesi
PVP 2022; V003T05A005https://doi.org/10.1115/PVP2022-84795
View Articletitled, Effect of Trapped Fluid on Expandable Liner Hanger Performance in Geothermal Applications
PDF
Topics: Fluids , Geothermal engineering

Design and Analysis of High-Pressure Hydrogen Equipment

Evaluation of the Hydrogen Barrier Properties of Chromium Oxide Films Deposited on SUS304 Austenitic Stainless Steels
Kazuyoshi Kawami, Atsushi Kinoshita, Hisashi Yamanaka, Yoji Fukuda, Hirotoshi Enoki, Takashi Iijima, Seiji Fukuyama, Ryo Tsukane, Toshiyuki Tanaka, Takeshi Fukutani, Yoshiaki Suzuki, Hiroyasu Tamai, Takashi Ogi, Motonori Tamura
PVP 2022; V003T05A006https://doi.org/10.1115/PVP2022-80128
View Articletitled, Evaluation of the Hydrogen Barrier Properties of Chromium Oxide Films Deposited on SUS304 Austenitic Stainless Steels
PDF
Topics: Coating processes , Hydrogen , Hydrogen embrittlement , Stainless steel
Fatigue Design Sensitivities of Stationary Type 2 High-Pressure Hydrogen Vessels
John M. Emery, Peter Grimmer, Robert Wheeler, III, Chris San Marchi, Joseph Ronevich
PVP 2022; V003T05A007https://doi.org/10.1115/PVP2022-83904
View Articletitled, Fatigue Design Sensitivities of Stationary Type 2 High-Pressure Hydrogen Vessels
PDF
Topics: Fatigue design , High pressure (Physics) , Hydrogen , Vessels , Pressure , Cycles , Autofrettage , Design , Fatigue life , Fracture (Materials)
Study on Burst Pressure of Type Ⅳ Hydrogen Storage Cylinder Based on Progressive Failure Analysis
Ning Zhu, Kai Ma, Chaohua Gu, Ruiming Zhang, Zhengli Hua, Liqing Wei
PVP 2022; V003T05A008https://doi.org/10.1115/PVP2022-84525
View Articletitled, Study on Burst Pressure of Type Ⅳ Hydrogen Storage Cylinder Based on Progressive Failure Analysis
PDF
Topics: Cylinders , Failure analysis , Hydrogen storage , Pressure
Development of C-Ring Geometry to Explore Fatigue Crack Extension and Verification in High-Pressure Vessels
Robert W. Wheeler, Joseph Ronevich, Chris San Marchi, Peter Grimmer, John M. Emery
PVP 2022; V003T05A009https://doi.org/10.1115/PVP2022-84635
View Articletitled, Development of C-Ring Geometry to Explore Fatigue Crack Extension and Verification in High-Pressure Vessels
PDF
Topics: Fatigue cracks , Geometry , High-pressure vessels , Nondestructive evaluation , Fracture (Materials) , Pressure , Cycles , Vessels , Design , Electrical discharge machining

Design, Analysis, and Life Prediction of High-Pressure Vessels and Equipment

The Preliminary Design and Dynamic Simulation of a Large Confinement Vessel for Explosive Charge Detonation Events
Robert Valdiviez
PVP 2022; V003T05A010https://doi.org/10.1115/PVP2022-82063
View Articletitled, The Preliminary Design and Dynamic Simulation of a Large Confinement Vessel for Explosive Charge Detonation Events
PDF
Topics: Design , Explosions , Explosives , Simulation , Vessels
Study on the Manufacturing and Failure Modes of Type Ⅳ High-Pressure Hydrogen Vessel Liner
Qiubing Kang, Jiyong Kuang, Zhengli Hua, Yifan Li, Weifeng Chen, Wenzhu Peng
PVP 2022; V003T05A011https://doi.org/10.1115/PVP2022-84560
View Articletitled, Study on the Manufacturing and Failure Modes of Type Ⅳ High-Pressure Hydrogen Vessel Liner
PDF
Topics: Collapse , Failure , Failure mechanisms , High pressure (Physics) , Hydrogen , Manufacturing , Vessels
Numerical Simulation on Hydrogen Induced Cracking Behavior of 4130X Hydrogen Storage Vessel With Defect
Haotian Wei, Baihui Xing, Tiancheng Cui, Juan Shang, Zhengli Hua, Chaohua Gu
PVP 2022; V003T05A012https://doi.org/10.1115/PVP2022-84572
View Articletitled, Numerical Simulation on Hydrogen Induced Cracking Behavior of 4130X Hydrogen Storage Vessel With Defect
PDF
Topics: Computer simulation , Cracking (Materials) , Fracture (Process) , Hydrogen , Hydrogen storage , Vessels , Fracture (Materials) , Cylinders , Diffusion (Physics) , Crack propagation

Structures Under Extreme Loading Conditions (Joint Topic)

Pseudo-Ratcheting and Shakedown in Impulsively Loaded Vessels
Thomas A. Duffey, Kevin R. Fehlmann, Joshem C. Gibson
PVP 2022; V003T05A013https://doi.org/10.1115/PVP2022-78698
View Articletitled, Pseudo-Ratcheting and Shakedown in Impulsively Loaded Vessels
PDF
Topics: Vessels
Predicting the Projectile Velocity of a Two-Stage Gas Gun Using Machine Learning
Pouya Shojaei, Mohamed Trabia, Brendan O’Toole, Richard Jennings
PVP 2022; V003T05A014https://doi.org/10.1115/PVP2022-79815
View Articletitled, Predicting the Projectile Velocity of a Two-Stage Gas Gun Using Machine Learning
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Topics: Machine learning , Projectiles
Baseline Design of High-Pressure Confinement Vessel for Proton Radiography of Shock Physics Experiments
Dusan Spernjak, Matthew Fister, Kevin Fehlmann, Jesse Scarafiotti, Matthew Lakey, Gerald Bustos, Devin Cardon
PVP 2022; V003T05A015https://doi.org/10.1115/PVP2022-84092
View Articletitled, Baseline Design of High-Pressure Confinement Vessel for Proton Radiography of Shock Physics Experiments
PDF
Topics: Design , Explosives , High pressure (Physics) , High-pressure vessels , Physics experiments , Protons , Shock (Mechanics) , Testing , Vessels
Flange Design for High Temperature - Material Selection, Functionality Challenges and Design Process Explained on Example
Przemyslaw Lutkiewicz
PVP 2022; V003T05A016https://doi.org/10.1115/PVP2022-84215
View Articletitled, Flange Design for High Temperature - Material Selection, Functionality Challenges and Design Process Explained on Example
PDF
Topics: Creep , Design , Finite element analysis , Flanges , High temperature
Assessment of Gaseous Detonations in Pressure Vessels
Derrick Pease, George Abatt, Keith Clutter
PVP 2022; V003T05A017https://doi.org/10.1115/PVP2022-84269
View Articletitled, Assessment of Gaseous Detonations in Pressure Vessels
PDF
Topics: Explosions , Plasticity , Pressure , Pressure vessels
Finite Element Analysis of Piping System Under Blast Load Due to Accidental Explosion
Ozer Dereli, Sudipta Basu, Mehmet Ozbey, Rudraprasad Bhattacharyya
PVP 2022; V003T05A018https://doi.org/10.1115/PVP2022-84812
View Articletitled, Finite Element Analysis of Piping System Under Blast Load Due to Accidental Explosion
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Topics: Blast effect , Explosions , Finite element analysis , Pipes , Piping systems
Development Testing of High-Pressure Confinement Vessel for Proton Radiography of Explosively Driven Shock Physics Experiments
Devin Cardon, Dusan Spernjak, Kevin Fehlmann, Matthew Fister, Jesse Scarafiotti, Matthew Lakey, Morgan Biel, Mark Marr-Lyon, Keith Mashburn, Kirk Webber
PVP 2022; V003T05A019https://doi.org/10.1115/PVP2022-85995
View Articletitled, Development Testing of High-Pressure Confinement Vessel for Proton Radiography of Explosively Driven Shock Physics Experiments
PDF
Topics: Explosives , High pressure (Physics) , Physics , Physics experiments , Protons , Shock (Mechanics) , Testing , Vessels
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