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SPE Distinguished Lecturer Program
Primary funding is provided by
The SPE Foundation through member donations
and a contribution from Offshore Europe
The Society is grateful to those companies that allow theirprofessionals to serve as lecturers
Additional support provided by AIME Society of Petroleum EngineersDistinguished Lecturer Programwww.spe.org/dl
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Near Surface External Casing Corrosion;Cause, Remediation and Mitigation
Jerry DethlefsConocoPhillips Company
Society of Petroleum EngineersDistinguished Lecturer Programwww.spe.org/dl
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Agenda
•
Problem Description
• Corrosion Mechanism
•
Repair Process – Excavation – Patch
•
Mitigation Process – Sealant
• Summary and Conclusions
laska North Slope
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Kuparuk Operations
•
Approximately 1200 wells• Field startup in 1981
• First Surface Casing (SC) corrosion noted in 2000
•
By 2005 over 25 wells with SC leaks
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The Problem
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Escalating rate of SC failures – Holes near surface from 0 to 25+
– Detected by leaks at surface
• SC is a well barrier
–
Well integrity issues
– Production impacts
• What is the cause andlong term cost impact?
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Surface Casing Corrosion
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Investigation
SC corrosion NOT related to:
– Age of well
–
Electrical stray currents – Surface location
• There ARE correlations with:
–
Design•
Number of casing strings
– Type of service• Temperature correlation
Surface Casing Leaks - Year of Completion
0
1
2
3
4
5
6
7
8
1 9 8 3
1 9 8 5
1 9 8 7
1 9 8 9
1 9 9 1
1 9 9 3
1 9 9 5
1 9 9 7
1 9 9 9
2 0 0 1
Year Completed
W e l l s w i t h S C L e a k s
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Findings
•
Conducted field tests with corrosion consultant
• Root cause: Primary cement procedure combinedwith Arctic cement blends
Mechanism:
•
Repeated wetting of cement with oxygenated water
• Cement breakdown = corrosive fluid
•
Add heat from production• Galvanic and thermo-galvanic cells
• SC becomes sacrificial anode
• Conductor becomes cathode
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Corrosive Fluid
Oxygenated water becomes an electrolyte in theannulus due to components of degraded cement
Electrolyte Resistivity: The lower the resistance value, the
easier it conducts electricity and is more corrosive.
Resistivity (Ohm-cm) General Category
Less than 500 Extremely Corrosive501-1,000 Very Corrosive1,001-5,000 Corrosive
5,001-10,000 Moderate-Mildly Corrosive
Above-10,000 Normally not significant
Source: Farwest Corrosion Control Report 6731, J. Bollinger
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Test Samples From One Well
Material & Source Resistivity ClassificationCellar Water 1,020 CorrosiveCement ( Dry) 400,000 Not significantCement (Saturated) 38 Extremely Corrosive
Soil Adjacent cellar (Dry) 58,000 Not significantSoil Adjacent cellar (Sat) 3,700 Corrosive
Source: Farwest Corrosion Control Re ort 6731 J. Bollin er
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Well Construction
Surface Casing
~2,500 TVD
Cemented to surface
Cement fallback
• Fluid losses
•
Fracture zones
•
Voids
•
0 to > 100
Cellar box
Conductor @ 120 RKB
Cemented to surface
Arctic Set cement
15% Salt and Gypsum
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Galvanic Cell in Annulus(Cross Section)
Corrosive water in annulus
Salt Bridge
(Cement Additives)
Anode
(Surface Casing)
Cathode
(Conductor Casing)
Oxidation Reduction
Electrons
GALVANIC CELL
Primary cement top
High
Temp
Low
Temp
Corrosion
Surface Casing Conductor
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Heat Increases Corrosion Rate
Single Casing Completion with Hot Water Injection*• One less annulus to insulate from permafrost
• Higher Temperature Gradient = Faster Thermo-GalvanicCorrosion
Thermo-Galvanic Corrosion
•
Caused by thermal gradient
•
Similar effect as galvanic corrosion
•
Anodic and cathodic areas are formed
•
Corrosion attack will develop
Source: Farwest Corrosion Control Re ort 6731 J. Bollin er
* A annulus and conductor; no B annulus
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Primary Cement Blend
Surface Casing Cement• Good cement minimizes corrosion
• Light weight cement to reduce hydrostatic head
• Designed to set prior to freezing in permafrost zone
Additives = Complications
• +/- 15% Salt for Freeze Point Depression
– Salt Water = Higher Corrosion Rates
•
Gypsum for Heat of Hydration
– Gypsum = Plaster of Paris
• Degrades Rapidly in Water
•
Lead slurry contaminated during displacement
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To Initiate Corrosion:Just add oxygenated water from
snow melt or rain--
Oxygen EnrichingAlgae in Water
And repeat year after year!
Water Level Marks in Culvert
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Remediation Process
•
Excavation• Preparation
• Patch
•
Important: – Perform risk assessment
– Wells require safe-out
– Follow HSE guidelines
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Excavation MethodsShallow – Vacuum Removal
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Excavation MethodsModerate – Backhoe & Scaffold
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Excavation MethodsDeep – Backhoe & Trench Box
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Multiple Well Excavation
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Current Approach
• Minimal cellar
•
Up to 8 deep
• Low cost option
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Conductor Removal MethodsTorch
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Conductor Removal MethodsCasing Window Cutter
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Cement Sheath Removal
Conductor
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Shallow Repair Sequence
• Buff or sandblast SC
• Ultrasonic Thickness(UT) inspection
•
Engineered patch
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Shallow Repair SequenceInstall SC sleeve – typically split casing
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Shallow Repair SequenceSleeve installed and welded
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Shallow Repair SequenceCorrosion protection installed over sleeve
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Shallow Repair SequenceRe-install Conductor
Fill with cement and top with sealant
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Corrosion Mitigation Process
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Existing wells: –
Seal water entrance paths• Weld or plug conductor holes
• Top-fill with cement to near surface
•
Top with dielectric sealant
• New wells - Drilling – Improve cementing practice
•
Cement to near surface• Top with dielectric sealant
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Job of Sealants• Seal annulus from water and oxygen
–
Even if completely submersed
• Suitable for wide temperature fluctuations
• Environmentally benign
•
Should be removable• Should remain in place
– No Projectile with deeper Leak
• Should be replenishable
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Sealant Properties• Grease-like product
•
Dielectric properties
• Non hardening co-polymer
• Excellent corrosion
performance• Provides protective film
• Densified with zinc dust – Heavier than water
•
Best performance
Pipe immersed in aerated salt solution covering insulation for 2 Years
Courtesy of Denovus
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Treatment Temperature
• Sealant 115 to 130 F
•
Will not burn workers
• Sufficient to self level
• Will not overflow when at operating temperature
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Treatment Overview
SC ~ 2,500 TVD
Cement fallback
•
Fluid losses
•
Fracture zones
•
Voids
Raise cement top
Top Job with hose &
low pressure pump
Top with sealant(1-2 typical)
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What Sealant Looks Like
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Project Status
As of July 2010:
• 56 casing failures known or suspected
•
45 excavations and patches completed
• 1133 wells sealant treated
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Patch Economics
• Cost < 6% of rig workover repairs
•
Savings > $65,000,000 – Over 8-year period compared to using rotary rig
– Assuming 50% of wells were economic to repair
•
More wells remain in service due to robustpatch economics
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Sealant Mitigation
• Treat remaining wells in Kuparuk and satellite fields
• New wells treated after release by Drilling
• Other North Slope Operators adopting program
•
Applicable in many global locations
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Conclusion
• SC corrosion cause identified
• SC repairs on-going
•
Mitigation in progress
• Improved cement procedures for new wells
• A non-traditional, non-rig repair can be a safe, cost-effective alternative
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Application
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Offshore locations – Saltwater exposure
•
Onshore – Cement additives
– Shallow surface water sources
–
Production fluids release – Well servicing fluid exposure
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Thank you!
Questions?
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Based on:
SPE-100432-PP Near Surface Casing Corrosion in
Alaska; Cause and MitigationJerry Dethlefs, Curtis Blount, ConocoPhillips and
John Bollinger, Farwest Corrosion Company
Contributions by ConocoPhillips Alaska Wells Group
• Published: – SPE Drilling & Completion Journal, December 2008, Volume 23,
Number 4
•
Reference: –
SPE 50967 Corrosion Problems in Below-Grade Wellhead Equipmentand Surface Casings
• Special thanks: –
MJ Loveland and Perry Klein, ConocoPhillips Alaska Wells Group