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Proceedings Papers

Proceedings Volume Cover
2020 13th International Pipeline Conference
September 28–30, 2020
Virtual, Online
Conference Sponsors:
  • Pipeline Division
ISBN:
978-0-7918-8446-1
Volume 3: Operations, Monitoring, and Maintenance; Materials and Joining

Operations, Monitoring, and Maintenance

Automation and Measurement

Industrial Validation and Verification Approach for External Fiber Optic Based Leak Detection
Chris Minto, Alastair Godfrey, Paul Clarkson, Alasdair Murray
IPC 2020; V003T04A001https://doi.org/10.1115/IPC2020-9233
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Topics: Fibers , Leakage
Liquid Pipeline Rupture Detection Using Multiple Artificial Intelligence Classifiers During Steady-State and Transient Operations
Christopher MacDonald, Michael Yang, Shawn Learn, Ron Hugo, Simon Park
IPC 2020; V003T04A002https://doi.org/10.1115/IPC2020-9237
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Topics: Artificial intelligence , Pipelines , Rupture , Steady state , Transients (Dynamics)
Pipeline Leak Detection Using a Moderate Gain Nonlinear Observer
Sérgio B. Cunha, Renan M. Baptista
IPC 2020; V003T04A003https://doi.org/10.1115/IPC2020-9333
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Topics: Leakage , Pipelines
Employing Space-Based Hyperspectral Imagery for Pipeline Leak Prevention, Detection and Compliance
R. Peter Weaver, Dan Katz, Tushar Prabahakar, Katie A. Corcoran
IPC 2020; V003T04A004https://doi.org/10.1115/IPC2020-9369
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Topics: Leakage , Pipelines , Satellites
On-Water Liquid Leak Detection Technology Evaluation
Chris Apps, Marzie Derakhshesh, Nikolaos Salmatanis, Carrie Greaney
IPC 2020; V003T04A005https://doi.org/10.1115/IPC2020-9463
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Topics: Leakage , Water
Establishing a Detection Threshold for Acoustic-Based External Leak Detection Systems
Mathew Bussière, Mark Stephens, Marzie Derakhshesh, Yue Cheng, Lorne Daniels
IPC 2020; V003T04A006https://doi.org/10.1115/IPC2020-9518
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Topics: Acoustics , Leakage , Probability , Sensitivity analysis , Cables , Data acquisition systems , Fibers , Pipelines , Regression analysis , Sensors
A Method of Leakage Parameters Estimation for Liquid Pipelines Based on Conditional Generative Adversarial Network
Jianqin Zheng
IPC 2020; V003T04A007https://doi.org/10.1115/IPC2020-9538
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Topics: Leakage , Pipelines
Study on Intelligent Controller Design of Flow Metrological Calibration System
Xiong Yin, Kai Wen, Yan Wu, Lei Zhou, Jing Gong
IPC 2020; V003T04A008https://doi.org/10.1115/IPC2020-9557
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Topics: Calibration , Design , Flow (Dynamics) , Intelligent control systems , Control equipment , Flowmeters , Artificial neural networks , China , Valves , Natural gas
Kalman Filter and Model-Free Adaptive Control Theory Applied to the Unsteady Flow State Estimation of Product Pipelines
Lei He, Kai Wen, Jing Gong
IPC 2020; V003T04A009https://doi.org/10.1115/IPC2020-9558
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Topics: Adaptive control , Frequency response , Kalman filters , Pipelines , State estimation , Unsteady flow
Numerical Simulation of Crude Oil Spreading in a Complex River Channel
Dongliang Yu, Ji Wang, Quan Cao, Xinglong Zhang, Xueguang Liu
IPC 2020; V003T04A010https://doi.org/10.1115/IPC2020-9565
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Topics: Computer simulation , Crude oil , Leakage , Rivers
A Novel Approach for Two-Stage UAV Path Planning in Pipeline Network Inspection
Rui Qiu, Yongtu Liang
IPC 2020; V003T04A011https://doi.org/10.1115/IPC2020-9604
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Topics: Genetic algorithms , Inspection , Optimization , Path planning , Pipelines , Unmanned aerial vehicles
Oil Temperature Prediction of Long-Distance Hot-Crude-Oil Pipeline Based on GA-BP Optimization
Tao Yu, Peng Dong, Yang Yu, Jinzhou Song, Jie Zhang
IPC 2020; V003T04A012https://doi.org/10.1115/IPC2020-9634
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Topics: Crude oil , Optimization , Pipelines , Temperature , Safety , Algorithms , Artificial neural networks , Data mining , Errors , Genetic algorithms
Operational Modal Response Characterization of a Buried Pipe Structure
Haobin Chen, Ron Hugo, Ron Chik-Kwong Wong, Simon Park
IPC 2020; V003T04A013https://doi.org/10.1115/IPC2020-9786
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Topics: Pipes , Vibration measurement

Geohazards

Lessons Learned From Freespans at Pipeline Watercourse Crossings
Gerry Ferris
IPC 2020; V003T04A014https://doi.org/10.1115/IPC2020-9230
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Topics: Pipelines , Vortex-induced vibration , Failure , Water , Boats , Inspection , Pipes , Stress
Sand Dune Migration Monitoring for Pipeline Hazard Risk Mitigation: The Peru LNG Coastal Section Case
Fabien Ravet, Christian Silva, Rodolfo Gil, Simon Maguire, Etienne Rochat
IPC 2020; V003T04A015https://doi.org/10.1115/IPC2020-9247
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Topics: Erosion , Hazards , Liquefied natural gas , Pipelines , Risk mitigation , Sands , Shorelines
Enhancing Flooding Monitoring and Response to Improve Geohazard Management
Peter Song, Debra Tetteh-Wayoe, Kimberly Pierce, Mike Hill, Mark Maxwell
IPC 2020; V003T04A016https://doi.org/10.1115/IPC2020-9260
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Topics: Floods , Pipelines , Rivers , Failure , Flow (Dynamics) , Pipeline integrity , Pipes , Vortex-induced vibration , Water , Errors
An Integrated Approach to System-Wide Landslide Monitoring in the Appalachian Basin Region of the U.S.
Bailey Theriault, John Hennessy, Chris Markley
IPC 2020; V003T04A017https://doi.org/10.1115/IPC2020-9270
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Topics: Landslides
Pipeline Geohazards Screening: Using Results of Flood Scour Assessments to Provide a Simple Screening Tool for Pipeline Watercourse Crossings for Western Canada
Julia Ryherd, Colleen Small, Richard Guthrie, Song Ling, Hawley Beaugrand
IPC 2020; V003T04A018https://doi.org/10.1115/IPC2020-9452
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Topics: Floods , Pipelines , Water
The North Saskatchewan River Valley Landslide: Slope and Pipeline Condition Monitoring
Chris Holliday, Andy Young, Terri Funk, Carrie Murray
IPC 2020; V003T04A019https://doi.org/10.1115/IPC2020-9532
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Topics: Condition monitoring , Landslides , Pipelines , Rivers , Structural analysis
Large Standoff Magnetometry As a Practical Screening and Monitoring Tool for Pipelines Subjected to Geohazards
Tianzong (David) Xu
IPC 2020; V003T04A020https://doi.org/10.1115/IPC2020-9584
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Topics: Pipelines , Stress , Magnetization , Signals , Corrosion , Fracture (Materials) , Inspection , Leakage , Nondestructive evaluation , Pacific Ocean
Deer Mountain Case Study: Integration of Pipe and Ground Monitoring Data With Historical Information to Develop a Landslide Management Plan
Joel Babcock, Doug Dewar, Joel Webster, Tyler Lich
IPC 2020; V003T04A021https://doi.org/10.1115/IPC2020-9613
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Topics: Landslides , Pipes , Pipelines , Leakage , Corrosion , Cracking (Materials) , Density , Design , Fracture (Process) , Hoop stress
Case Study of “TIEAMM” Approach to Geohazard Identification, Characterization, and Mitigation
Joshua Nasrallah, Bailey Theriault, Andreas Kammereck
IPC 2020; V003T04A022https://doi.org/10.1115/IPC2020-9641
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Topics: Construction , Design , Landslides , Optimization , Pipeline integrity management , Pipelines , Risk , Risk-based design , Stress analysis (Engineering) , Teams
Preserving Critical Stormwater Storage Assets at Pipeline Terminal
Vincent Huang, David J. Walter, Curtis R. Treen, John A. Richmond
IPC 2020; V003T04A023https://doi.org/10.1115/IPC2020-9675
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Topics: Pipelines , Shear (Mechanics) , Storage , Construction , Drainage , Failure , Risk , Deformation , Design , Drills (Tools)
Structured Response Plan After a Ground Movement Event
Yong-Yi Wang, Dunji Yu, Mike Cook
IPC 2020; V003T04A024https://doi.org/10.1115/IPC2020-9717
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Topics: Earthquakes , Emergency response , Fitness-for-service , Flow (Dynamics) , Landslides , Pipeline integrity , Pipelines , Pressure
Identification and Mitigation of a Landslide Threatening Four Operating Natural Gas Pipelines
Amir Ahmadipur, Alexander McKenzie-Johnson, Ali Ebrahimi, Anthony H. Rice
IPC 2020; V003T04A025https://doi.org/10.1115/IPC2020-9743
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Topics: Landslides , Natural gas distribution , Stress
The Use of Remote Real-Time GNSS to Monitor a Pipeline in an Active Landslide
Jan Bracic, Ryan McMahon
IPC 2020; V003T04A026https://doi.org/10.1115/IPC2020-9751
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Topics: Landslides , Pipelines

Operations and Maintenance

Advances and Challenges in Purging Pipeline Sections: Field Measurements vs. 1D Purging Model
Kamal K. Botros, Andrew Hawryluk, Dmitry Ryapolov
IPC 2020; V003T04A027https://doi.org/10.1115/IPC2020-9226
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Topics: Pipelines , Pressure , Pipes , Explosions , Flow (Dynamics) , Natural gas , Risk , Safety , Circuits , Computer software
A Novel Three-Dimensional Non-Contact Magnetic Stress Inspection Technology and its Application on LNG Pipeline
Guoxi He, Tengjiao He, Kexi Liao, Hongdong Zhu, Shuai Zhao
IPC 2020; V003T04A028https://doi.org/10.1115/IPC2020-9258
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Topics: Inspection , Liquefied natural gas , Pipelines , Safety , Stress , Stress concentration
Experimental Investigation of the Difference in Wax Deposition Aging Rate Between Polyethylene and Steel Pipes
Rongbin Li, Yaping Li, Danfu Cao, Junfang Wang, Xin Liu
IPC 2020; V003T04A029https://doi.org/10.1115/IPC2020-9332
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Topics: Flow (Dynamics) , Pipes , Polyethylene pipes , Steel , Corrosion , Oil fields , Crude oil , Density , Differential scanning calorimetry , Diffusion processes
Leak Rate Testing of a Natural Pipeline Defect
Robert M. Andrews, Joe Short
IPC 2020; V003T04A030https://doi.org/10.1115/IPC2020-9366
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Topics: Leakage , Pipelines , Testing , Fracture (Materials) , Safety , Surface roughness , Water , Carbon dioxide , Density , Flow (Dynamics)
The Study on Non-Heating Transportation of Carbon Dioxide Flooding Pipeline
Xianwen Cheng, Qiyu Huang, Yao Li, Yaping Li, Xin Liu
IPC 2020; V003T04A031https://doi.org/10.1115/IPC2020-9405
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Topics: Carbon dioxide , Heating , Pipelines , Temperature , Tertiary petroleum recovery , Transportation systems , Viscosity
Pipeline Depth of Cover: Can You Demonstrate Compliance?
Daniel Finley, Simon Daniel, Paul Ogden
IPC 2020; V003T04A032https://doi.org/10.1115/IPC2020-9426
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Topics: Damage , Measurement units and standards , Pipelines
A Hybrid Method Based on SVM Integrated Improved PSO Algorithm for Electrical Energy Consumption Forecasting of Crude Oil Pipeline
Lei Xu, Lei Hou, Zhenyu Zhu, Yu Li, Ting Lei
IPC 2020; V003T04A033https://doi.org/10.1115/IPC2020-9434
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Topics: Algorithms , Crude oil , Energy consumption , Particle swarm optimization , Pipelines , Support vector machines
Pipe Sleeve Repair Analysis of Axial Surface Cracks to Improve Remaining Life
Greg Thorwald, Carolyn Kolovich
IPC 2020; V003T04A034https://doi.org/10.1115/IPC2020-9461
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Topics: Fatigue cracks , Fracture (Materials) , Maintenance , Pipes , Stress , Surface cracks
MAOP Reconfirmation for a 20 Inch Gas Pipeline Using the ECA Method and Enhanced ILI
Simon Slater, Chris Davies, Ollie Burkinshaw, Peter Clyde, John Griffen
IPC 2020; V003T04A035https://doi.org/10.1115/IPC2020-9479
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Topics: Pipelines , Materials properties , Regulations , Data fusion , Failure , Fracture (Materials) , Metals , Pipeline integrity , Pipes , Risk
Evaluation and Acceptability Criteria for Pneumatic Pressure Tests
Guohua Li, Michael Tupper, Hong-Chan Wei, Robert House, Hamid Bidmus
IPC 2020; V003T04A036https://doi.org/10.1115/IPC2020-9525
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Topics: Pressure , Transients (Dynamics)
Vehicle Load Distribution Under Timber Mats and Flexible Slab
Benjamin B. Zand
IPC 2020; V003T04A037https://doi.org/10.1115/IPC2020-9599
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Topics: Slabs , Stress , Timber , Vehicles , Pipelines , Stiffness , Soil , Boundary-value problems , Dimensions , Finite element analysis
The Application of Numerical Simulation to Liquid Pipeline Leakage at LNG Terminal in China
Zhichao Guo, Zhaoci Li
IPC 2020; V003T04A038https://doi.org/10.1115/IPC2020-9636
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Topics: China , Computer simulation , Diffusion (Physics) , Leakage , Liquefied natural gas , Pipelines
Research Progress of Sand Transport Mechanism and Critical Conditions in Pipelines
YuanPeng You, LiMin He, Xiaoming Luo, KaiYue Shi, JianPeng Su
IPC 2020; V003T04A039https://doi.org/10.1115/IPC2020-9722
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Topics: Flow (Dynamics) , Multiphase flow , Pipelines , Sands , Transportation systems
Repair of Leaks in Thin Wall High Pressure Pipelines Using Composite Reinforcing Technologies
Chris Alexander, Salem Talbi, Richard Kania, Jon Rickert
IPC 2020; V003T04A040https://doi.org/10.1115/IPC2020-9757
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Topics: Composite materials , High pressure (Physics) , Leakage , Maintenance , Pipelines , Thin wall structures
Use of Spoolable Pipe Technologies As a Means for Rehabilitating Small Diameter High Pressure Pipeline Systems
Chantz Denowh, Chris Alexander, Frank Cox, Richard Kania
IPC 2020; V003T04A041https://doi.org/10.1115/IPC2020-9785
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Topics: High pressure (Physics) , Pipeline systems , Pipes , Testing

Materials and Joining

Crack Propagation

Negligible Crack Growth Thresholds
Lyndon Lamborn, Greg Nelson, James Harter
IPC 2020; V003T05A001https://doi.org/10.1115/IPC2020-9248
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Topics: Fracture (Materials) , Pipelines
Recent Progress in Development of Ductile Fracture Arrest Methodology Based on CTOA: Test Standard, Transferability and Methodology
S. Xu, C. Bassindale, J. Xue, B. W. Williams, X. Wang
IPC 2020; V003T05A002https://doi.org/10.1115/IPC2020-9299
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Topics: Ductile fracture , Fracture (Materials) , Pipes , Steel , Fracture toughness , ASTM International , Damage mechanics , Cantilevers , Construction , Electromagnetic scattering
Crack Initiation and Propagation in Static Loaded Fracture Mechanics Tests in Steels Containing Atomic Hydrogen
Philippa L. Moore, Menno Hoekstra, Alex Pargeter
IPC 2020; V003T05A003https://doi.org/10.1115/IPC2020-9354
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Topics: Fracture (Materials) , Fracture mechanics , Hydrogen , Steel , Fracture toughness , Ductility , Alloy steel , Cathodic protection , Plasticity , Seawater
Application of a Simplified Constant Crack Tip Opening Angle Model to Crack Propagation Analyses in Steel Pipelines
Chris Bassindale, Xin Wang, William R. Tyson, Su Xu
IPC 2020; V003T05A004https://doi.org/10.1115/IPC2020-9410
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Topics: Crack propagation , Fracture (Materials) , Pipelines , Steel , American Petroleum Institute , Finite element analysis , Steady state
An Empirical Fracture Control Model for Dense-Phase CO2 Carrying Pipelines
Guillaume Michal, Erling Østby, Bradley J. Davis, Sigbjørn Røneid, Cheng Lu
IPC 2020; V003T05A005https://doi.org/10.1115/IPC2020-9421
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Topics: Carbon dioxide , Ductile fracture , Fracture (Materials) , Pipelines
Separation Characteristics of an X65 Linepipe Steel From Laboratory-Scale to Full-Scale Fracture Tests
Bradley J. Davis, Guillaume Michal, Cheng Lu, Valerie Linton
IPC 2020; V003T05A006https://doi.org/10.1115/IPC2020-9545
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Topics: Carbon dioxide , Fracture (Materials) , Fracture (Process) , Separation (Technology) , Steel , Pipes , Pipelines , Stress , Weight (Mass)
Pipeline Fracture Control Concepts for Norwegian Offshore Carbon Capture and Storage
Gaute Gruben, Kenneth Macdonald, Svend T. Munkejord, Hans L. Skarsvåg, Stephane Dumoulin
IPC 2020; V003T05A007https://doi.org/10.1115/IPC2020-9766
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Topics: Carbon capture and storage , Carbon dioxide , Fracture (Materials) , Ocean engineering , Pipelines , Pressure , Pipes , Reservoirs , Computational fluid dynamics , Computer simulation
Plastic Constraint-Matched Pin-Loaded SENT Specimen for Fracture Analysis of Radially Growing Longitudinal Cracks in Thin-Walled Piping
Jevan Furmanski, Peter Sarosi, Cary Marzinsky, Don Carpenter, Neeraj Thirumalai
IPC 2020; V003T05A008https://doi.org/10.1115/IPC2020-9789
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Topics: Fracture (Materials) , Pipes

Fittings and Testing Methods

Ring Expansion Testing Innovations: Hydraulic Clamping and Strain Measurement Methods
William Walsh, Sandeep Abotula, Bharath Konda
IPC 2020; V003T05A009https://doi.org/10.1115/IPC2020-9407
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Topics: Innovation , Strain measurement , Testing , Yield strength , Pipes , Pressure , Rollers , Stress , Tensile testing , American Petroleum Institute
Full-Scale Step-Load-Hold Tests on X65 and X70 Line Pipe Steels
Andrew Cosham, Brian N. Leis, Mures Zarèa, Fabian Orth, Valerie Linton
IPC 2020; V003T05A010https://doi.org/10.1115/IPC2020-9438
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Topics: Pipes , Steel , Stress , Failure , Fracture toughness , Creep , Pipelines , Testing , Dimensions , Iron and steel making
Microstructure Transformation and Mechanical Properties of X80 Large Diameter Thick Wall Induction Heating Bend for Low Temperature Service
Yu Liu, Zongbin You, Lijun Yan
IPC 2020; V003T05A011https://doi.org/10.1115/IPC2020-9741
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Topics: Arc welding , Electromagnetic induction , Fracture toughness , Heating , Low temperature , Mechanical properties

Materials

Estimating Toughness for LF and DC Welded ERW Seams
John Kiefner, Michael Rosenfeld, Peter Veloo, Troy Rovella
IPC 2020; V003T05A012https://doi.org/10.1115/IPC2020-9255
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Topics: Fracture toughness , Pipes
Repair and Reinforcement of Blunt Defects on Pipeline Bends Using Composite Materials
Paul Hill, Troy Swankie, Robert Bood, Dina Mihsein
IPC 2020; V003T05A013https://doi.org/10.1115/IPC2020-9290
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Topics: Composite materials , Maintenance , Pipelines
Influence of Natural Gas Pipeline Explosion on Material Performance of X80 Steel Pipe Laid in One Ditch
Jiatong Ling, Shaohua Dong, Hang Zhang, Donghua Peng
IPC 2020; V003T05A014https://doi.org/10.1115/IPC2020-9295
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Topics: Ditches , Explosions , Natural gas distribution , Pipelines , Pipes , Safety , Steel
Effects of Niobium on Microstructure and Hardness of Base Plate and Coarse Grained HAZ of High Strength X70 Grade UOE Linepipe Steel
Taro Kizu, Ryutaro Sakai, Hiroshi Imoto, Shigeru Endo, Frank Barbaro
IPC 2020; V003T05A015https://doi.org/10.1115/IPC2020-9323
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Topics: Steel , Carbon steel , Mechanical properties , Design , Fracture toughness , Grain size , Heat , Pipelines , Plates (structures) , Safety
Effect of Cooling Process on Microstructure Especially Precipitation Behavior of High-Strength Pipeline Steel
Zheng Hesong, Niu Tao, Li Fei
IPC 2020; V003T05A016https://doi.org/10.1115/IPC2020-9401
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Topics: Cooling , Pipelines , Precipitation , Steel
Effects of Flow Response on the Failure Pressure of Pipelines
Brian N. Leis
IPC 2020; V003T05A017https://doi.org/10.1115/IPC2020-9403
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Topics: Failure , Flow (Dynamics) , Mechanical properties , Pipelines , Pressure , Work hardening , Pipes , Design , Steel , Stress
Cross-Sectional Grain Size Homogeneity Effect on Structural Steel Fatigue Performance in Air and Hydrogen Environments
Douglas Stalheim, Andrew Slifka, Pello Uranga, Dong-Hoon Kang, Enrico Lucon
IPC 2020; V003T05A018https://doi.org/10.1115/IPC2020-9404
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Topics: Fatigue , Grain size , Hydrogen , Pipelines , Steel , Structural steel
Comparison Between Yield Strength Results Obtained From Methods Using Both Flattened and Non-Flattened Specimens
Pratham Nayyar, Dimitris Dimopoulos, William Walsh
IPC 2020; V003T05A019https://doi.org/10.1115/IPC2020-9429
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Topics: Yield strength , Pipes , American Petroleum Institute , Process control , Tensile strength , Testing , Wall thickness
Influence of Small Volumetric Flaws on the Measurement of Crack Growth and Tearing Resistance in SENT Tests
Vitor Adriano, Eleine Cardon, Wim De Waele, Stijn Hertelé, Matthieu Boone
IPC 2020; V003T05A020https://doi.org/10.1115/IPC2020-9582
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Topics: Fracture (Materials) , Gas metal arc welding , Computerized tomography , Gages , Machinery , Porosity , Robotics , Servomechanisms , Shapes , Welded joints
An Approach to Establishing Manufacturing Process and Vintage of Line Pipe Using In-Situ Nondestructive Examination and Historical Manufacturing Data
Nathan Switzner, Peter Veloo, Michael Rosenfeld, Troy Rovella, Jonathan Gibbs
IPC 2020; V003T05A021https://doi.org/10.1115/IPC2020-9589
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Topics: Manufacturing , Mechanical properties , Nondestructive evaluation , Pipes
Material Properties and Flaw Characteristics of Vintage Girth Welds
Dan Jia, Yong-Yi Wang, Steve Rapp
IPC 2020; V003T05A022https://doi.org/10.1115/IPC2020-9658
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Topics: Materials properties , Nondestructive evaluation , Pipelines , Welded joints
Improved Linepipe Specifications and Welding Practice for Resilient Pipelines
Yong-Yi Wang, Dan Jia, Dave Warman, David L. Johnson, Steve Rapp
IPC 2020; V003T05A023https://doi.org/10.1115/IPC2020-9725
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Topics: Pipelines , Welding
Time Dependence of Hydrogen Induced Cracking of X70 Pipeline Steel Under Severe and Mild Sour Service Conditions Using Ultrasonic Analysis
S. Gawor, J. B. Wiskel, D. G. Ivey, J. Liu, H. Henein
IPC 2020; V003T05A024https://doi.org/10.1115/IPC2020-9787
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Topics: Cracking (Materials) , Fracture (Process) , Hydrogen , Pipelines , Steel , Fracture (Materials) , Hydrogen embrittlement , Testing , Corrosion , Iron and steel making

Welding

Undermatching and Low Strain In-Service Failures in X70 Line Pipe: Contributions From Standards, Specifications and Coating
Frank Barbaro, Leigh Fletcher
IPC 2020; V003T05A025https://doi.org/10.1115/IPC2020-9241
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Topics: Coating processes , Coatings , Failure , Pipelines , Pipes , Pressure , Safety , Security , Welded joints , Welding
Improving Reliability of Carbon Steel Girth Welds in Sour Environment
Harpreet Sidhar, Neerav Verma, Chih-Hsiang Kuo, Michael Belota, Andrew J. Wasson
IPC 2020; V003T05A026https://doi.org/10.1115/IPC2020-9444
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Topics: Carbon steel , Microhardness , Pipelines , Reliability , Welded joints
Electromagnetic Induction Post Heating to Reduce NDE Delay Times of Welding In-Service Repairs
Liam Hagel, Jonathan Prescott, Alireza Kohandehghan, Stuart Guest, Sean Lepine
IPC 2020; V003T05A027https://doi.org/10.1115/IPC2020-9497
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Topics: Delays , Electromagnetic induction , Heating , Maintenance , Nondestructive evaluation , Welding , Hydrogen , Temperature , Fracture (Materials) , Heat
Characterization of Crystallographic Texture of ERW Welded and Heat-Treated API X70 Pipeline Steel
Nitin Sharma, Yiyu Wang, Leijun Li, Neil Anderson, Muhammad Rashid
IPC 2020; V003T05A028https://doi.org/10.1115/IPC2020-9596
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Topics: American Petroleum Institute , Electron backscatter diffraction , Heat , Pipelines , Steel , Texture (Materials)
The Use of Optimized ERW Technique to Improve Low Temperature Fracture Toughness of Welded Pipes
Muhammad Rashid, Timothy Hylton, Neil Anderson, Laurie Collins, Leijun Li
IPC 2020; V003T05A029https://doi.org/10.1115/IPC2020-9649
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Topics: Fracture toughness , Heat treating (Metalworking) , Low temperature , Pipes , Welding
Rational Limits of High-Low Misalignment in Girth Welds
Banglin Liu, Yong-Yi Wang, Dan Jia, Steve Rapp
IPC 2020; V003T05A030https://doi.org/10.1115/IPC2020-9685
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Topics: Acceptance criteria , Welded joints , Finite element analysis , American Petroleum Institute , Safety , Stress , Bending (Stress) , Construction engineering , Dimensions , Pipeline integrity
Austenite Grain Size Model for the Coarse Grain Heat Affected Zone in Line Pipe Steels
Nicolas Romualdi, Matthias Militzer, Warren Poole, Laurie Collins, Robert Lazor
IPC 2020; V003T05A031https://doi.org/10.1115/IPC2020-9687
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Topics: Grain size , Heat , Pipes , Steel , Welding
A Quantitative Index to Assess the Influence of Joint Fit-Up on Pipeline Weld Root Discontinuities
M. R. Grams, L. Ludwig, P. F. Mendez
IPC 2020; V003T05A032https://doi.org/10.1115/IPC2020-9706
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Topics: Pipelines , Welded joints , Welding , Pipes , Acceptance criteria , Cracking (Materials) , Engineering standards , Fracture (Process) , Geometry , Joining
Heat Affected Zone Softening Susceptibility Test
A. Dinovitzer, D. Begg, M. Quintana, R. Lazor
IPC 2020; V003T05A033https://doi.org/10.1115/IPC2020-9710
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Topics: Heat , Pipes , Failure , Welding , American Petroleum Institute , Carbon , Chemistry , Construction , Engineering standards , Risk
Weld Hydrogen Cracking Susceptibility
A. Dinovitzer, J. Moulton, M. Quintana, R. Lazor
IPC 2020; V003T05A034https://doi.org/10.1115/IPC2020-9712
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Topics: Hydrogen embrittlement , Hydrogen , Testing , Cracking (Materials) , Fracture (Process) , Metals , Fracture (Materials) , Welded joints , Ductility , Electrodes
Influence of Steel Chemistry and Field Girth Welding Procedure on Performance of API X70 Line Pipe Steels
Mohsen Mohammadijoo, Laurie Collins, Muhammad Rashid, Muhammad Arafin
IPC 2020; V003T05A035https://doi.org/10.1115/IPC2020-9721
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Topics: American Petroleum Institute , Chemistry , Fracture toughness , Pipelines , Pipes , Steel , Welding
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