Recent Developments in High Productivity Pipeline Welding ...
Current Technologies for Mechanized Pipeline Welding ...
Transcript of Current Technologies for Mechanized Pipeline Welding ...
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Wynhold Wijnholds, Vice President Magnatech John Emmerson, President Magnatech
Current Technologiesfor Mechanized Pipeline Welding
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The Past
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Cross Country Pipeline Welding Today
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Discussion
Current problems facing the pipeline industry Possible solutions Economic considerations Weld quality concerns
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Pipeline Projects -- 2006-2009Source: Simdex Future Pipeline Projects Worldwide Guide
Too Many Projects – Too Few SkilledWelders
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Increased Flow Requirements RequireHigher Internal Pressures
Advantage
• Standard pipeline weld quality standards(API 1104, others) acceptable
•Heavy wall equals greater weight•Higher pipe cost•Higher transportation cost•Longer weld times, longerproduction duration.
•Thinner wall equals lower weight•Lower transportation cost•Shorter weld times, shorter projectduration
•Weld defects acceptable underpipeline quality standards may now beunacceptable•Need of more stringent qualitystandards•More demanding of welders skills•Higher repair rate with manualwelding
Higher pressures dictate a choice - DisadvantageApproach
•Use Pipe With GreaterWall Thickness
•Use Higher StrengthSteel Pipe
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Development of Pipeline Steels
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How Is Most Pipeline Welding DoneToday?
85% of welding done manually using SMAW (stick electrode)process
Average age of a welder in north America, Europe, Japan, is 57 Welder shortage extends to guest workers from developing counties.
Solution to Welder Shortage –Mechanize the Welding Process.
Improved Productivity Improved quality, reduced repair rates Allows use of less skilled welders
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•No machining of pipe ends, use 30° bevel
Internal clamp used to line up pipe ends
How is Manual SMAW Welding Done Today?
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How is Manual SMAW Welding Done Today?
•Pipe ends are precisely gapped
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•Initial Root Pass is Made
•Fill and Cap Passes Finish Weld.
How is Manual SMAW Welding Done Today?
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How Have Mechanized Welding BeenDone Traditionally?
Most mechanized welding systems use solidwire GMAW (gas metal arc welding.)
Pipe ends must be machined on site usinglarge pipe beveling tools.
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How Have Manual And MechanizedWelding Been Done Traditionally?
Approach
Manual Process (SMAW)
Internal clamp with Cu shoes
I.D. welder – GMAW Process(CRC-Evans)
Advantages
• Use standard bevel
• Uniform bead penetration
• Very fast• O.D. weld Head can weld Hotpass at same station
Disadvantages
• Slower• Variable quality
• High equipment cost (special bevel)• Frequent replacement of expansionCu shoes.• Possible Cu pickup• Not allowed by many customers• Pipe Ends must be calibrated at themill.
• High defect rate• High equipment cost (rental)• Special bevel• Pipe Ends must be calibrated at themill.• Defective root pass must be cutout• For pipe larger than 20” only
Pipeline Welding Root Pass Options
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Internal Clamp With CopperShoes
Typical ID welding system
How Have Manual And MechanizedWelding Been Done Traditionally?
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How Have Manual and MechanizedWelding Been Done Traditionally?
Pipeline Welding Fill Pass OptionsApproach
Manual (Semiautomatic)Processes (SMAW/GMAW)
Mechanized WeldingGMAW Downhill (ShortCircuit)
Advantages• Use standard bevel
• Fast, rapid move-up time• Increased welds/day• Narrow gap bevelminimizes fill time
Disadvantages• Slower• Variable quality
• High defect rate• Special bevel required• More passes to fill joint• Short circuit processpoorly controlled• Speed limits welderoverride corrections• Can only be used to18mm maximum pipeweld thickness.
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Typical Fill Pass GMAW Weld Head(Bug)
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Economics and Limitations with TraditionalMechanized Welding Approaches
Requires remachining of pipe ends in the field• Cost of beveling equipment.• Extra time required.
All suppliers use GMAW in short-circuit mode• Prone to serious “lack of fusion” type defects.
Copper backing clamp• Not allowed in certain countries and by certain pipeline owners due to Cu
contamination of the weld.• Cu shoes need frequent replacement at high costs.
Fill and Cap passes• High Torch Speeds prevent welders from making override corrections.
Internal welder• Must be rented – (expensive). At least two systems required (one backup).
All welds require both radiographic (x-ray) and 100% ultrasonic inspection• Cost of third party ultrasonic inspection.
Repairs difficult• Narrow groove complicates repairs of defects.
Cannot meet more rigorous quality standards• Welds meet API 1104, but not more demanding quality standards of ASME IX ,
for example.
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An Alternate Approach: Magnatech Hybrid Technique
Use Standard 30° V-Bevel (as delivered from pipemill)
Use advanced GMAW process for semiautomaticroot pass
Use mechanized flux core arc welding for fill and cappasses.
This “new” approach has 15 year history of success
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Internal clamp used to align pipes, and then pipe ends are gapped.
An Alternate Approach: Magnatech Hybrid Technique
(uses same techniques and equipment as used for manual SMAW)
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Can Root Pass WeldingBe Done With FCAW?
No. Solution - Use Semiautomatic RMD® or STT® Process for Root Pass
Standard “V” bevel with RMDGMAW Root and FCAW Fill passes
RMD/STT Processes Provide Adequate Weld Deposit Root Pass To AvoidFCAW re-penetration
RMD® and STT® are registered trademarks of theMiller Electric Company and Lincoln Electric Company.
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STT®/ RMD® Basics – General Process Review
Both are unique GMAW processes Wire feed speed and current are independently
controlled (unlike conventional GMAW technology)
Two Advanced GMAW Short CircuitProcess For Root Pass Welding
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Advanced Root Pass GMAW ProcessPrecisely Controls Arc Wave Form
Time --->
T1 T2 T3 T4 T5 T6T7
T0Ø
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Advanced Root Pass ProcessAdvantages
• Weld nugget - 50% more ligament thickness (5-6 mm versus 2.5 mmfor SMAW)
• Optimal bead profile eliminates grinding
Manual SMAW Process STT/RMD Process
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Major Advantagesof Advanced Root Pass Processes
Heavy Root Deposit Solid wire process Solid Wire Process Low heat input Minimal spatter Optimal bead
contour “Smart” Processes
Eliminates Hot PassLow Diffusible HydrogenNo slag defectsReduced distortionReduced cleaningLess grindingMinimal training (user friendly)
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Also approved by many regulatoryorganizations and pipeline owners
•Saudi Aramco
•Transco
•DNV
•Statoil
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Manual STT®/RMD® Root Pass
Two welders simultaneously weld root pass
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Finished Root Pass
Note Uniform ID Bead
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Solid wire Ø1.0 mm Cored wire Ø1.2 mm
Use Mechanized FCAWfor Fill and Cap Pass Welding
Note wide weld bead and deep penetration in this fillet weld
Advantage of Flux Core Arc Welding (cored wire) Versus Gas MetalAdvantage of Flux Core Arc Welding (cored wire) Versus Gas MetalArc Welding (solid wire)Arc Welding (solid wire)
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Typical Fill Pass FCAW Weld Head(Bug)
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Esso Cold Lake Project, Alberta18”-20” O.D. x 25mm Wall, X65
Use Mechanized FCAW for Fill and CapPass Welding
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Mechanized FCAW Cap Passes
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FCAW Process Minimizes Most Repairs
Note: 0.011% repair rate on linearbasis
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Economics of “New” Approach
• Eliminates costs of remachining pipe ends at jobsite.• Eliminates need to “calibrate” (round) pipe ends at mill.• Minimizes welding skills for root pass.• Tolerant of poor fit up (mismatch) between pipe ends.• FCAW process eliminates most defects and repairs.• Eliminates need for ultrasonic inspection of welds.
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Typical Recent FCAW Pipeline Applications:
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Otis EasternWater Pipeline Project - 48"O.D.
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Saudi Aramco - Haradh Gas Gathering Manifold32" x 18mm wall, X-65. 20 Pipeliner systems. Zero repair rate.
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Hidd Bahrain Water Pipeline42”, 56”, 72” O.D. x 15mm wall X60, 10 km
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Chad - Double-Joining Pipes
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Chad - Double-Joining24” O.D. X65
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Grane Project, Norway – Gas Pipeline Landfall in Tunnel28” O.D. x 26mm Wall
Nine Systems
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Esso Cold Lake Project, Alberta CanadaSteam Injection in Heavy Crude Wells
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Dong Gas Pipeline, Denmark24” x 15m wall, X-65
187 kmContractor: Per Aarsleff
Landfall Project, Kalstø, Norway40” x 53mm, X-65
Contractor: JV KAARSTOE Pipeline Contractors
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A Perfect Weld – The end sometimes justifies the means