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Proceedings Papers

Proceedings Volume Cover
2022 14th International Pipeline Conference
September 26–30, 2022
Calgary, Alberta, Canada
Conference Sponsors:
  • Pipeline Division
ISBN:
978-0-7918-8658-8
Volume 3: Operations, Monitoring, and Maintenance; Materials and Joining

Front Matter

IPC2022 Front Matter
IPC 2022; V003T00A001doi:https://doi.org/10.1115/IPC2022-FM3
View Articletitled, IPC2022 Front Matter
PDF

Operations, Monitoring, and Maintenance

Automation and Measurement

Forced Resonance Imaging for 3-D Mapping of Underground Pipeline Assets
Tianzong (David) Xu, Khosrow Bakhtar
IPC 2022; V003T04A001doi:https://doi.org/10.1115/IPC2022-86726
View Articletitled, Forced Resonance Imaging for 3-D Mapping of Underground Pipeline Assets
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Topics: Imaging , Resonance , Underground pipelines , Pipelines , Plastic pipes , Sensors , Absorption , Air Force , Calibration , Electromagnetic spectrum
A Simple Baseline of Pipeline Data Simulation Algorithm Based on DGM
Xu Hu, Hengyu Wang, Hongyang Zhao, Gaoling Liu, Di Wang
IPC 2022; V003T04A002doi:https://doi.org/10.1115/IPC2022-86997
View Articletitled, A Simple Baseline of Pipeline Data Simulation Algorithm Based on DGM
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Topics: Algorithms , Pipelines , Simulation , Errors , Flow (Dynamics) , Pressure , Pumps , Sensors , Statistical distributions
CNN-Based Flow Pattern Identification Based On Flow-Induced Vibration Characteristics For Multiphase Flow Pipelines
Haobin Chen, Zhuoran Dang, Ronald Hugo, Simon Park
IPC 2022; V003T04A003doi:https://doi.org/10.1115/IPC2022-87001
View Articletitled, CNN-Based Flow Pattern Identification Based On Flow-Induced Vibration Characteristics For Multiphase Flow Pipelines
PDF
Topics: Artificial neural networks , Flow (Dynamics) , Flow-induced vibrations , Fourier transforms , Multiphase flow , Pipelines
Dynamic Stress Analysis of Multi-Section Curved Pipes Subjected to a Moving ILI Tool
Hamid Mostaghimi, Sina Rezvani, Ronald Chune, Ron Hugo, Simon S. Park
IPC 2022; V003T04A004doi:https://doi.org/10.1115/IPC2022-87250
View Articletitled, Dynamic Stress Analysis of Multi-Section Curved Pipes Subjected to a Moving ILI Tool
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Topics: Finite element analysis , Inspection , Pipes , Stress , Stress analysis (Engineering)
New Findings in Leak Detection on Multi-Phase Pipelines
Andrew Hoffman, Jun Zhang, Jason Wilkie
IPC 2022; V003T04A005doi:https://doi.org/10.1115/IPC2022-87397
View Articletitled, New Findings in Leak Detection on Multi-Phase Pipelines
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Topics: Leakage , Pipelines , Flow (Dynamics) , Fluids , Hardware , Computer software , Emissions , Flowmeters , Greenhouse gases , Instrumentation
Enhancing (Reducing) the Leak Detection Times in Pipelines by Deployment of Real-Time Ethernet Protocols in Lieu of Legacy Protocols, Such as DNP, IEC-60870-5-101 / 104
Nadimpalli V. S. N. Raju, Supriyo Ganguly, Y. Gowri Sankar, Jon Barley, Gregory Morrow
IPC 2022; V003T04A006doi:https://doi.org/10.1115/IPC2022-87788
View Articletitled, Enhancing (Reducing) the Leak Detection Times in Pipelines by Deployment of Real-Time Ethernet Protocols in Lieu of Legacy Protocols, Such as DNP, IEC-60870-5-101 / 104
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Topics: Data acquisition , Leakage , Modeling , Pipelines , Pressure , Transients (Dynamics) , Waves

Geohazards

A Deep Dive Into the Use of LiDAR Change Detection Analysis for Regional Landslide Monitoring in the Appalachian Basin Region of the US
Bailey Theriault, Christopher Markley, Tara Metzger
IPC 2022; V003T04A007doi:https://doi.org/10.1115/IPC2022-86790
View Articletitled, A Deep Dive Into the Use of LiDAR Change Detection Analysis for Regional Landslide Monitoring in the Appalachian Basin Region of the US
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Topics: Landslides
Development of an Interactive E-Learning Geohazards Training Program for Pipeline Operations Personnel
Logan Brant, Todd Zawacki, Jane Barnes, Alexander McKenzie-Johnson
IPC 2022; V003T04A008doi:https://doi.org/10.1115/IPC2022-86854
View Articletitled, Development of an Interactive E-Learning Geohazards Training Program for Pipeline Operations Personnel
PDF
Topics: Geohazards , Pipelines , Training programs
Integrity Management Considerations for Pipes in Peat Muskeg and Organic Rich Soils
Aran Thurairajah, Bassam Saad, Randy Williams, Viji Fernando, Mahmood Seid-Karbasi
IPC 2022; V003T04A009doi:https://doi.org/10.1115/IPC2022-86987
View Articletitled, Integrity Management Considerations for Pipes in Peat Muskeg and Organic Rich Soils
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Topics: Construction , Pipes , Soil
Vulnerability of Pipelines Installed by Horizontal Directional Drilling to Landslides and a Proposed Framework for Developing Preliminary No Drill Zones for Landslide Avoidance
Joel Van Hove, Pete Barlow, Max Duguay, Hamid Karimian
IPC 2022; V003T04A010doi:https://doi.org/10.1115/IPC2022-87032
View Articletitled, Vulnerability of Pipelines Installed by Horizontal Directional Drilling to Landslides and a Proposed Framework for Developing Preliminary No Drill Zones for Landslide Avoidance
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Topics: Drills (Tools) , Failure , Horizontal directional drilling , Landslides , Pipelines
Stress-Relief Excavation for Pipeline Geohazard Mitigation
Amir Ahmadipur, Ali Ebrahimi, Arash Mosaiebian, Doug Cook
IPC 2022; V003T04A011doi:https://doi.org/10.1115/IPC2022-87081
View Articletitled, Stress-Relief Excavation for Pipeline Geohazard Mitigation
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Topics: Geohazards , Landslides , Pipelines , Pipes , Stress
Predicting the Future by Mapping the Past: Revolutionary Innovations in Lidar Change Detection Analysis are Enabling Regional Scale Mapping and Identification of Threats From Geohazards
Matthew Lato, Megan van Veen, Alex Ferrier, Luke Weidner, Alex Graham
IPC 2022; V003T04A012doi:https://doi.org/10.1115/IPC2022-87104
View Articletitled, Predicting the Future by Mapping the Past: Revolutionary Innovations in Lidar Change Detection Analysis are Enabling Regional Scale Mapping and Identification of Threats From Geohazards
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Topics: Geohazards , Innovation , Hazards , Pipelines , Climate change , Data acquisition , Decision making , Design , Pipeline integrity management
Morphological Change Detection at Pipeline Crossings Using Remote Sensing: A Proof-of-Concept Study
Rudy Schueder, Jeanine Engelbrecht
IPC 2022; V003T04A013doi:https://doi.org/10.1115/IPC2022-87155
View Articletitled, Morphological Change Detection at Pipeline Crossings Using Remote Sensing: A Proof-of-Concept Study
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Topics: Geohazards , Imaging , Pipelines , Synthetic aperture radar , Rivers , Algorithms , Satellites , Computer programming languages , Computer software , Computers
The November 2021 British Columbia, Canada Storm: Observations and Lessons Learned From Assessing Pipeline Infrastructure Subject to Natural Disasters
Alex Baumgard, Matt Thompson, Harmen Van Hove, Sean Sullivan
IPC 2022; V003T04A014doi:https://doi.org/10.1115/IPC2022-87220
View Articletitled, The November 2021 British Columbia, Canada Storm: Observations and Lessons Learned From Assessing Pipeline Infrastructure Subject to Natural Disasters
PDF
Topics: Natural disasters , Pipelines , Storms
Advanced Assessment of Pipeline River Crossings
Saurav Pathak, Aaron Dinovitzer, Abdelfettah Fredj, Peter Song, Ali Fathi, Debra Tetteh-Wayoe
IPC 2022; V003T04A015doi:https://doi.org/10.1115/IPC2022-87303
View Articletitled, Advanced Assessment of Pipeline River Crossings
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Topics: Computational fluid dynamics , Fluid structure interaction , Pipelines , Rivers , Vibration , Vortex-induced vibration
Guidelines to Develop Fitness-for-Service Assessment of Exposed Pipeline Due to Flood Events: Investigation, Assessment and Mitigation
Kaiwen Liu, Alejandro Beltran, Serene Gao, Andrew Greig
IPC 2022; V003T04A016doi:https://doi.org/10.1115/IPC2022-87778
View Articletitled, Guidelines to Develop Fitness-for-Service Assessment of Exposed Pipeline Due to Flood Events: Investigation, Assessment and Mitigation
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Topics: Fitness-for-service , Floods , Pipelines
High Fidelity Distributed Fiber Optic Sensing for Landslide Detection
Carrie Murray, Ehsan Jalilian, Arfeen Najeeb, Sam Toms, Tasnim Hossain
IPC 2022; V003T04A017doi:https://doi.org/10.1115/IPC2022-87809
View Articletitled, High Fidelity Distributed Fiber Optic Sensing for Landslide Detection
PDF
Topics: Fibers , Landslides , Pipelines , Acoustics , Instrumentation , Leakage , Accelerometers , Construction , Containment , Cracking (Materials)

Operations and Maintenance

An Assessment of Utilities Locating Practices and Excavation Damage
Khalid Farrag, Marta Guerrero Merino
IPC 2022; V003T04A018doi:https://doi.org/10.1115/IPC2022-81580
View Articletitled, An Assessment of Utilities Locating Practices and Excavation Damage
PDF
Topics: Damage , Pipelines , Public utilities , Radar
Rapid Leak Detection on Slurry Lines by Negative Pressure Wave Detection With Distributed Fiber Optic Sensing
Alasdair Murray, Alastair Godfrey, Chris Minto
IPC 2022; V003T04A019doi:https://doi.org/10.1115/IPC2022-86011
View Articletitled, Rapid Leak Detection on Slurry Lines by Negative Pressure Wave Detection With Distributed Fiber Optic Sensing
PDF
Topics: Fibers , Leakage , Pressure , Slurries , Waves
Laboratory Testing of a Model for Pipe Buried Into Sand Subjected to a Surface Loading
Antoine Mertz, Christophe Dano, Charles Fernandez, Orianne Jenck, Adrien Lebrun, Fabrice Emeriault
IPC 2022; V003T04A020doi:https://doi.org/10.1115/IPC2022-86098
View Articletitled, Laboratory Testing of a Model for Pipe Buried Into Sand Subjected to a Surface Loading
PDF
Topics: Pipes , Sands , Soil , Testing
Stress Analysis of Crossing Highway Pipe Sections Under Vehicle Load Based on the Experiment of Real-Size Pipes
Guoxi He, Guoqiang Xia, Kexi Liao, Tengjiao He, Xin Tang, Zhiyuan Tian
IPC 2022; V003T04A021doi:https://doi.org/10.1115/IPC2022-86766
View Articletitled, Stress Analysis of Crossing Highway Pipe Sections Under Vehicle Load Based on the Experiment of Real-Size Pipes
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Topics: Highways , Pipes , Stress , Stress analysis (Engineering) , Vehicles
Experimental Investigation Into Bulk Performance of Three Different Style Inline Separators on Natural Gas at High Pressure, Different Liquid Loadings and Gas Flows
Kamal K. Botros, Nic Chan, John Geerligs, Keith Leong, Brendan Hickey, Ivan Gong
IPC 2022; V003T04A022doi:https://doi.org/10.1115/IPC2022-86834
View Articletitled, Experimental Investigation Into Bulk Performance of Three Different Style Inline Separators on Natural Gas at High Pressure, Different Liquid Loadings and Gas Flows
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Topics: Gas flow , High pressure (Physics) , Natural gas , Compressors , Drops , Nozzles , Separation (Technology) , Corrosion , Damage , Filters
Case Study of Progressive Cleaning for Challenging Pipeline With High Debris and Low Flow Rate
Husain Al-Muslim, Senhat Al-Otaibi, Ibrahim Aldosary, Abdulrahman Alqahtani, Taher Aljundi, Mohsen AlNasser
IPC 2022; V003T04A023doi:https://doi.org/10.1115/IPC2022-86871
View Articletitled, Case Study of Progressive Cleaning for Challenging Pipeline With High Debris and Low Flow Rate
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Topics: Flow (Dynamics) , Pipelines
Feasibility Analysis and Minimum Flowable Temperature Calculation Method of Normal Temperature Gathering and Transportation Process in Oilfield
Guoxi He, Jianhua Zhao, Kexi Liao, Zhiyuan Tian
IPC 2022; V003T04A024doi:https://doi.org/10.1115/IPC2022-87271
View Articletitled, Feasibility Analysis and Minimum Flowable Temperature Calculation Method of Normal Temperature Gathering and Transportation Process in Oilfield
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Topics: Computational methods , Oil fields , Simulation , Temperature , Transportation systems
All Optical Multi-Sensor Well Monitoring System to Survey and Monitor Gas Storage Operations
Allan Lee, Christopher Barclay, David Xu, Bjorn Paulsson, Michael Wylie, Ruiqing He
IPC 2022; V003T04A025doi:https://doi.org/10.1115/IPC2022-87311
View Articletitled, All Optical Multi-Sensor Well Monitoring System to Survey and Monitor Gas Storage Operations
PDF
Topics: Monitoring systems , Reservoirs , Sensors , Storage
Fitness for Service Engineering Assessment of Exposed Pipeline Sections
Alireza Kohandehghan, Suborno Debnath, Kshama Roy, Robert Wickie
IPC 2022; V003T04A026doi:https://doi.org/10.1115/IPC2022-87364
View Articletitled, Fitness for Service Engineering Assessment of Exposed Pipeline Sections
PDF
Topics: Fitness-for-service , Pipelines
Nineteen Years of Successful Use of Austenitic Stainless-Steel Pipelines for Oilfield Water Services
Frank Gareau, Arash Ilbagi, Brian Dew, Craig Collins
IPC 2022; V003T04A027doi:https://doi.org/10.1115/IPC2022-87756
View Articletitled, Nineteen Years of Successful Use of Austenitic Stainless-Steel Pipelines for Oilfield Water Services
PDF
Topics: Oil fields , Pipelines , Stainless steel , Water

Materials and Joining

Crack Propagation

Engineering Approach for Ductile Fracture Arrest Based on CTOA
Su Xu, C. Bassindale, X. Wang, B. W. Williams, W. R. Tyson, C. Guan
IPC 2022; V003T05A001doi:https://doi.org/10.1115/IPC2022-86825
View Articletitled, Engineering Approach for Ductile Fracture Arrest Based on CTOA
PDF
Topics: Ductile fracture , Fracture (Materials) , Fracture (Process) , Pipelines , Steel
The Decompressed Stress Level in Dense Phase Carbon Dioxide Full-Scale Fracture Propagation Tests
Andrew Cosham, Guillaume Michal, Erling Østby, Julian Barnett
IPC 2022; V003T05A002doi:https://doi.org/10.1115/IPC2022-86855
View Articletitled, The Decompressed Stress Level in Dense Phase Carbon Dioxide Full-Scale Fracture Propagation Tests
PDF
Topics: Carbon dioxide , Fracture (Materials) , Stress , Ductile fracture , Pipelines , Water , Design , Fracture toughness , Hoop stress , Natural gas
Development of CTOA Requirements for Ductile Fracture Arrest in Gas Pipelines: FE Model and Simulations
Chris Bassindale, Xin Wang, William R. Tyson, Su Xu
IPC 2022; V003T05A003doi:https://doi.org/10.1115/IPC2022-87157
View Articletitled, Development of CTOA Requirements for Ductile Fracture Arrest in Gas Pipelines: FE Model and Simulations
PDF
Topics: Ductile fracture , Engineering simulation , Finite element model , Pipelines , Simulation , Fracture (Materials) , Fracture (Process) , American Petroleum Institute , Pipes , Pressure
Temperature and Loading Frequency Effects in the Mechanism for NNpH SCC of Pipeline Steel
Greg Nelson, Weixing Chen, Reg Eadie
IPC 2022; V003T05A004doi:https://doi.org/10.1115/IPC2022-87794
View Articletitled, Temperature and Loading Frequency Effects in the Mechanism for NNpH SCC of Pipeline Steel
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Topics: Pipelines , Steel , Stress corrosion cracking , Temperature

Fittings and Testing Methods

Improved Fracture Toughness Test Method for Single Edge Notched Tension Specimens in Clamped-End Conditions
Xian-Kui Zhu
IPC 2022; V003T05A005doi:https://doi.org/10.1115/IPC2022-86927
View Articletitled, Improved Fracture Toughness Test Method for Single Edge Notched Tension Specimens in Clamped-End Conditions
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Topics: Fracture toughness , Gages , Tension
Engineering Assessment of Substandard In-Line Isolation Split Fitting
Ken Zhang, Ron Chune, Frank Cox, Chantz Denowh, Chris Alexander
IPC 2022; V003T05A006doi:https://doi.org/10.1115/IPC2022-86988
View Articletitled, Engineering Assessment of Substandard In-Line Isolation Split Fitting
PDF
Topics: Finite element analysis , Fittings , Flanges , Testing
Hard Stamp, Paint, or Chemical DNA, How to Link the Steel Product to the Material Test Report
Alfons Krom, Otto Jan Huising
IPC 2022; V003T05A007doi:https://doi.org/10.1115/IPC2022-87189
View Articletitled, Hard Stamp, Paint, or Chemical DNA, How to Link the Steel Product to the Material Test Report
PDF
Topics: DNA , Emission spectroscopy , Heat , Paints , Steel products , Mechanical properties , Steel , Foundry ladles , Inspection , Manufacturing
Analytical and Experimental Assessment of Short Bolted Flange Nuts Subjected to Tensile Loads for Development of Mitigation Strategy
Jonathan Brewer, Colton Sheets
IPC 2022; V003T05A008doi:https://doi.org/10.1115/IPC2022-87744
View Articletitled, Analytical and Experimental Assessment of Short Bolted Flange Nuts Subjected to Tensile Loads for Development of Mitigation Strategy
PDF
Topics: Bolted flanges , Stress , Testing , Failure , Tension , Failure mechanisms , Tensile strength , Risk , Thread , ASTM International
Stress Analysis of ASME Section X Flanges Using Classical Lamination Theory
Sofiane Bouzid, Abdel-Hakim Bouzid, Anh Dung Ngô
IPC 2022; V003T05A009doi:https://doi.org/10.1115/IPC2022-89130
View Articletitled, Stress Analysis of ASME Section X Flanges Using Classical Lamination Theory
PDF
Topics: Composite materials , Fiber reinforced plastics , Flanges , Laminates , Lamination , Stress analysis (Engineering)

Materials

Centerline Segregation Rating and Its Implications on Mechanical Properties and Weldability of Line-Pipe Steels
Bikram Konar, Mohsen Mohammadijoo, Kendal Dunnett, Muhammad Rashid
IPC 2022; V003T05A010doi:https://doi.org/10.1115/IPC2022-86738
View Articletitled, Centerline Segregation Rating and Its Implications on Mechanical Properties and Weldability of Line-Pipe Steels
PDF
Topics: Mechanical properties , Pipes , Steel , Testing , Slabs , Reliability , Welding , ASTM standards , Casting , Computer-aided engineering
Update of Line Pipe Charpy Test Interpretation
Fan Zhang, Michael J. Rosenfeld
IPC 2022; V003T05A011doi:https://doi.org/10.1115/IPC2022-86753
View Articletitled, Update of Line Pipe Charpy Test Interpretation
PDF
Topics: Pipes , Wall thickness , Fittings , American Petroleum Institute , Dimensions , Fitness-for-service , Fracture (Materials) , Fracture (Process) , Impact testing , Phase transition temperature
Into the Void: Understanding the Impact of Hydrotests on Flaws in ERW Welds
David B. Futch, Rhett Dotson, Mark Holland
IPC 2022; V003T05A012doi:https://doi.org/10.1115/IPC2022-86956
View Articletitled, Into the Void: Understanding the Impact of Hydrotests on Flaws in ERW Welds
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Topics: Electrical resistance , Electrons , Fatigue , Fracture (Materials) , Geometry , Hydrostatic testing , Lamination , Manufacturing , Metallography , Optical microscopy
Quantitative Evaluation of Microstructure to Support Verification of Material Properties in Line-Pipe Steels
L. P. Martin, Nathan Switzner, Owen Oneal, Sophia Curiel, Joel Anderson, Peter Veloo
IPC 2022; V003T05A013doi:https://doi.org/10.1115/IPC2022-87063
View Articletitled, Quantitative Evaluation of Microstructure to Support Verification of Material Properties in Line-Pipe Steels
PDF
Topics: Manufacturing , Materials properties , Mechanical properties , Pipes , Steel
TMCP Pipe for Sour Service: A New Qualification Approach
Brian Newbury, Volker Schwinn, Jens Schroeder, Graham Alderton, Andrew Prescott, Andrew Wasson
IPC 2022; V003T05A014doi:https://doi.org/10.1115/IPC2022-87146
View Articletitled, TMCP Pipe for Sour Service: A New Qualification Approach
PDF
Topics: Cracking (Materials) , Fracture (Process) , Pipes , Steel , Stress , Hydrogen , Failure , Manufacturing , Pipelines , Damage
Investigation of Cost-Effective Braided and Wound Composite Pipelines for Hydrogen Applications
Niels Grigat, Tim Mölling, Suyin Jireh Torres Crooks, Ben Vollbrecht, Johannes Sackmann, Thomas Gries
IPC 2022; V003T05A015doi:https://doi.org/10.1115/IPC2022-87191
View Articletitled, Investigation of Cost-Effective Braided and Wound Composite Pipelines for Hydrogen Applications
PDF
Topics: Composite materials , Fiber reinforced plastics , Hydrogen , Pipelines , Winding (process)
Line Pipe HAZ Softening Susceptibility and Response
Aaron Dinovitzer, Stuart Guest, Zoe Slumkoski, Sanjay Tiku, Shafayet Zamil, Nick Khotenko, Darren Begg
IPC 2022; V003T05A016doi:https://doi.org/10.1115/IPC2022-87312
View Articletitled, Line Pipe HAZ Softening Susceptibility and Response
PDF
Topics: Pipes , Steel , Failure , Pipelines , Testing , Welding , American Petroleum Institute , Chemistry , Cycles , Heat
Optimization of Through Thickness Microstructural Grain Size, Homogeneity and Niobium Metallurgy Performance for Cost Effective Improved API X80 Heavy Gauge Large Diameter Pipe Body and Weld Mechanical Property Stability
Douglas Stalheim, Jiang Jinxing, Huo Chunyong, Zhang Yongqing, Jose Bacalhau, David Han
IPC 2022; V003T05A017doi:https://doi.org/10.1115/IPC2022-87331
View Articletitled, Optimization of Through Thickness Microstructural Grain Size, Homogeneity and Niobium Metallurgy Performance for Cost Effective Improved API X80 Heavy Gauge Large Diameter Pipe Body and Weld Mechanical Property Stability
PDF
Topics: American Petroleum Institute , Gages , Grain size , Mechanical properties , Metallurgy , Optimization , Pipes , Stability
Overcoming Material and Test Variability Challenges in In-Situ Material Verification
Soheil Safari Loaliyan, Intisar Rizwan-I-Haque, Yasamin Salamat, Ryan Lacy, Mohammadamin Mahmoudabadbozchelou, Simon Bellemare, Buddy Powers, Tom Eagar
IPC 2022; V003T05A018doi:https://doi.org/10.1115/IPC2022-87361
View Articletitled, Overcoming Material and Test Variability Challenges in In-Situ Material Verification
PDF
Topics: Gaussian distribution , Maintenance , Materials properties , Nondestructive evaluation , Pipelines , Pipes , Risk , Testing
X80 Heavy Gauge and Large Diameter Helical Line Pipe for Low Temperature Applications
Michael J. Gaudet, Muhammad Rashid, Ahmad van der Breggen, Kendal Dunnett, Muhammad Arafin
IPC 2022; V003T05A019doi:https://doi.org/10.1115/IPC2022-87793
View Articletitled, X80 Heavy Gauge and Large Diameter Helical Line Pipe for Low Temperature Applications
PDF
Topics: Gages , Low temperature , Pipes , Steel

Welding

Effect of Crack Orientation on Toughness of Contemporary EW Pipe Seam Welds
S. Xu, L. Yang, J. Xue, J. Liang, W. R. Tyson
IPC 2022; V003T05A020doi:https://doi.org/10.1115/IPC2022-80723
View Articletitled, Effect of Crack Orientation on Toughness of Contemporary EW Pipe Seam Welds
PDF
Topics: Fracture (Materials) , Fracture toughness , Pipes , Welded joints
Sulfide Stress Cracking Response of X80 Simulated Heat Affected Zone for Offshore Pipeline and Riser Application
Chih-Hsiang Kuo, Yifei Zeng, David Baker, Weiji Huang, Geoff Dunn, Douglas Hoyt, Laurent Ladeuille, Harold Evin
IPC 2022; V003T05A021doi:https://doi.org/10.1115/IPC2022-85710
View Articletitled, Sulfide Stress Cracking Response of X80 Simulated Heat Affected Zone for Offshore Pipeline and Riser Application
PDF
Topics: Cracking (Materials) , Fracture (Process) , Heat , Pipeline risers , Risers (Casting) , Stress , Underwater pipelines
Fracture Toughness Evaluation of Pre-1980’s Electric Resistance Welded Pipeline Seam Welds
Kenneth Bagnoli, Thirumalai Neeraj, Greger Pioszak, Ryan Holloman, Gregory Thorwald, Clifford Hay
IPC 2022; V003T05A022doi:https://doi.org/10.1115/IPC2022-86014
View Articletitled, Fracture Toughness Evaluation of Pre-1980’s Electric Resistance Welded Pipeline Seam Welds
PDF
Topics: Electrical resistance , Fracture toughness , Pipelines , Welded joints , Fracture (Materials) , Fracture (Process) , Steel , Welding , Data collection , Economics
Factors Affecting SMAW Pipeline Girth Weld Strength and Strain Concentration Under Tensile Loading
Eric Willett, Greg Lehnhoff
IPC 2022; V003T05A023doi:https://doi.org/10.1115/IPC2022-86735
View Articletitled, Factors Affecting SMAW Pipeline Girth Weld Strength and Strain Concentration Under Tensile Loading
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Topics: Pipelines , Welded joints , Failure , Filler metals , Heat , Pipes , Stress , Tensile testing , American Petroleum Institute , Carbon
Development of a Hybrid of Semi-Automatic Waveform Controlled GMAW and Mechanized FCAW-G Welding Process and Associated Alternative Weld Flaw Acceptance Criteria For Pipeline Construction
Junfang Lu, Bob Huntley, Axel Aulin, Andy Duncan, Peter Schamuhn Kirk, Rory Belanger, Claude-Yve Zorrilla, Debra Tetteh-Wayoe
IPC 2022; V003T05A024doi:https://doi.org/10.1115/IPC2022-86737
View Articletitled, Development of a Hybrid of Semi-Automatic Waveform Controlled GMAW and Mechanized FCAW-G Welding Process and Associated Alternative Weld Flaw Acceptance Criteria For Pipeline Construction
PDF
Topics: Acceptance criteria , Gas metal arc welding , Pipeline construction , Welding , Fitness-for-service , Welded joints , Construction , Inspection , Mechanical testing , Pipelines
Post-Heating as an Alternative to Delayed Nondestructive Examination (NDE)
Melissa Gould, William A. Bruce, Russell Scoles
IPC 2022; V003T05A025doi:https://doi.org/10.1115/IPC2022-87109
View Articletitled, Post-Heating as an Alternative to Delayed Nondestructive Examination (NDE)
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Topics: Construction , Heating , Inspection , Nondestructive evaluation , Welding , Welded joints , Hydrogen , Cracking (Materials) , Fracture (Process) , Temperature
Self-Shielded Flux-Cored Arc Welding - Practical Approaches for Improved Performance of Girth Welds in High-Strength Steel Pipelines
Sam Phillips, Marie Quintana, Dan Jia, Jiawei Wang, Yong-Yi Wang
IPC 2022; V003T05A026doi:https://doi.org/10.1115/IPC2022-87290
View Articletitled, Self-Shielded Flux-Cored Arc Welding - Practical Approaches for Improved Performance of Girth Welds in High-Strength Steel Pipelines
PDF
Topics: Arc welding , Fracture toughness , High strength steel , Pipelines , Welded joints , Welding
Evaluation of Higher Strength E8010 Pipe Root Pass Welding
Kenneth Lee, Bill Bruce, Melissa Gould
IPC 2022; V003T05A027doi:https://doi.org/10.1115/IPC2022-87295
View Articletitled, Evaluation of Higher Strength E8010 Pipe Root Pass Welding
PDF
Topics: Pipes , Welding
Detection and Mitigation of Copper Contamination in Mechanized Onshore Pipeline Girth Welds
Kenneth Lee, Paul Spielbauer, David Culbertson, Bob Huntley
IPC 2022; V003T05A028doi:https://doi.org/10.1115/IPC2022-87297
View Articletitled, Detection and Mitigation of Copper Contamination in Mechanized Onshore Pipeline Girth Welds
PDF
Topics: Contamination , Copper , Nondestructive evaluation , Pipelines , Welded joints , Welding , Gas metal arc welding , Cracking (Materials) , Fracture (Process) , Arc welding
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