The impact of well chevron template - International Association of
Transcript of The impact of well chevron template - International Association of
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The Impact Of Cementing On Proper Well Control p
Lee Dillenbeck – Senior Advisor, CementingChevron ETC Drilling and Completions
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Learning Objectives
Explain the main reasons for cementing wells
Explain the difference between primary and remedial cementing
Describe slurry properties that must be controlled
Describe slurry thickening time
Identify API classes of cement commonly used
Identify various cement additives and their function Identify various cement additives and their function
Discuss good cementing practices
Explain the benefits of two floats and adequate shoe jointp q j
Describe methods of evaluating a cement job
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Reasons for Cementing
Achieve Zonal Isolation
Provide Casing Supportg pp
Protect Casing
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How Cement Jobs are Classified
Primary Cementing: the technique of placing cement slurries in the annular space between the casing and the borehole.
Primary Cementing may include:
Lead Cement - on top Lead Cement - on top
Tail Cement - in bottom
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Conventional Primary Cementing
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Remedial Cementing
Remedial Cementing: Is any process used to repair a primary
cement job or which falls outside the definition of primary
cementing
Examples include: Cement plugs Cement plugs
Squeeze cementing
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Migration Paths in Cementing Annulus
“In the annulus, there are three possible paths for fluid movement; the cement/ rock interface, the cement/ casing interface, and the cement
matrix”
-G. Di Lullo and P. Rae, IADC / SPE 62745
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Contributing Factors for Good Cement Job
Slurry design/ testing
Mixing procedures
Good mud removal technique
Proper placement of cement slurry
Field supervision
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Hole Conditioning
Condition mud to as low a yield point and gel strength as practical consistent with cuttings removal and suspension and hole stability
Move casing during conditioning
Condition until flowline and suction mud propertied have stabilized at Condition until flowline and suction mud propertied have stabilized at optimum values
Mud conditioning also cools the well
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Casing Movement
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CentralizersCentralizers
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Slurry Design
DensityS lid / W t ti– Solids/ Water ratio
Thickening Time Fluid Loss Free Water Free Water Rheology Compressive Strength
Gas Tight Slurry Design??? Foamed Slurry Design??
Future? Tensile Strength
Young’s Modulus
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g
Poisson’s Ratio
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Slurry Density Hierarchy**Slurry Density Hierarchy
Spacer at least one-half Mud to surfaceSpacer at least one half ppg heavier than mud
Lead slurry at least one-half ppg heavier than the
Mud to surface12.0 ppg
Spacer12 5half ppg heavier than the
spacer
Tail slurry always heavier than the lead sl rr
12.5 ppg
Lead Slurry13.0 ppg
than the lead slurry
Tail Slurry15.8 ppg15.8 ppg
Casing Shoe
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Example** ** When pumping “normal” circulation, When pumping “normal” circulation, not reverse circulationnot reverse circulation
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Slurry Thickening Time
The time available to place a slurry before it becomes too thick to pump
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Thickening Time Requirements
The thickening time should equal job time (mix, pump, displace) plus a reasonable safety factor such as 1 to 2 hours
A slurry exhibiting a “right angle set” rather than a “gel set” is A slurry exhibiting a right-angle set rather than a gel set , is generally regarded as preferred– In actual well, slurry is static when set occurs, not continuously sheared
until set as in consistometeruntil set as in consistometer.
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Gel and Right Angle SetGel and Right Angle Set
GEL SET RIGHT ANGLE SET
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Accelerators
Accelerating a slurry means shortening the thickening time or reducing the time required to gain compressive strength, or both
In general an inorganic material will act as an accelerator In general, an inorganic material will act as an accelerator– Salts such as CaCl2, KCl, NaCl
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Retarders
A material that allows sufficient time for slurry placement by delaying the set of the cement is called a retarder
In general, many organic materials such as simple sugars will retard the set of a cement slurryy– Lignins from wood pulping process
– Certain cellulose derivatives
– Organo-phosphate type synthetics
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Fluid Loss Additives
Reduces the rate at which cement slurry filtrate is lost to a permeable formation
Works by viscosifying the mix water or by plugging the pore throat in the filter cake with long polymer chainsg p y
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Dispersants
Also called friction reducers, these materials make cement slurries easier to mix and pump by making them less viscous
Act on the surface of cement grains
Secondary retardation Secondary retardation
Enhances fluid loss control
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Extenders
Additives that reduce slurry density and increase slurry yield are called extenders– Most allow the addition of extra water to slurry
Cement may be lightened to protect weak formations or slurry yieldCement may be lightened to protect weak formations or slurry yield may be increased to reduce cost
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Fluid Loss
The fluid loss of a slurry is a measure of the rate at which filtrate is forced from a cement slurry when the slurry is subjected to differential pressure across a permeable medium
Fluid Loss rates of less than 50 ml can help with gas migration control p g gthrough slurry as it sets
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Fluid Loss Requirements
Lead Slurries: 300-500 mls
Production Casing Slurries: ˂ 100 mls
Linear Slurries and Anti-Gas: ˂ 50 mls
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Free Water and Slurry Stability
Free water is the fluid that separates from a cement slurry
Slurry stability is affected and solids sedimentation may occur
Free Water Requirement– The slurry should exhibit zero free water without solids sedimentation or
channels @ 45 degree angles
Excessive free water and/ or slurry sedimentation = easy path for formation fluids moving in annulus after ceent sets
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Free Water Test
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Slurry Rheololgy
Rheology is the science that deals with the deformation and flow of fluids
Correct slurry, spacer, and mud rheological properties are a factor in good mud removalg
Viscosity and Yield Point are one measure of rheology
ELF stands for “Effective Laminar Flow”– Mud must be removed and replaced by competent cement
One requirement for ELF= Proper Rheological Hierarchy One requirement for ELF= Proper Rheological Hierarchy– In simple terms, each fluid pumped in well more viscous than fluid in front
of it
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Compressive Strength
Obtaining adequate compressive strength is not difficult if overly extended slurries are not used as pay cements– We are starting to be able to calculate what “adequate” is
A slurry must be stabilized against strength retrogression if it is usedA slurry must be stabilized against strength retrogression if it is used at high temperature– Usually 35% Silica BWOC is added
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Migration Paths In Cementing Annulus
“In the annulus, there are three possible paths for fluid p pmovement; the cement/rock interface, the cement/casing interface, and the cement matrix”
– G. Di Lullo and P. Rae, IADC/SPE 62745
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Gas Migration Through Setting Cement
Requirements for slurry to resist gas flow during transition – Very low fluid loss: < 50 mls
– Zero free water @ 45 degree angle
Short static gel strength de elopment Time for 100 to 500 lbf/ 100 sq ft– Short static gel strength development: Time for 100 to 500 lbf/ 100 sq ft gel strength < 30 min
• During this time the slurry supports part of it’s own weight and well fluids can enter the wellbore Shorten this time and you are less likelyfluids can enter the wellbore. Shorten this time and you are less likely to have annular flow through the cement after cementing
– While a “right angle” set profile on HTHP consitometer is good, it is not guarantee of gas tight systemguarantee of gas tight system
– Certain cement additives can also enhance gas control of slurries: Polymer s, micro-fine particles etc
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Gas Flow Potential in a Given Well
FPF = Flow Potential Factor
FPF = MPR/OBP MPR = Maximum pressure reduction = 1.67 x L/D
(L= Length of interval; D= Hydraulic Diameter in)(L= Length of interval; D= Hydraulic Diameter, in)
OBP = Overbalance pressure
FPF < 3 Minor Gas Flow Potential
– Controlled fluid loss and no free water
3<FPF>8 Moderate Gas Flow Potential3<FPF>8 Moderate Gas Flow Potential
– Controlled fluid loss and no free water
FPF>8 High Gas Flow Potential.
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– Slurry Design should have low fluid loss, no free water, and less than 30 minute transition time
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Good Cementing Practices
Casing Movement
Centralizers
Scratchers and Wipers
Casing Wiper Plugs
Two Floats
Adequate Shoe Joint Adequate Shoe Joint
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Casing Movement- Rotation
No Rotation Rotation
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Evaluating the Job
Temperature Survey
Leak- off Test
Bond Logs– Sonic Tools: CBL, CBT, SBT, etc
– Ultrasonic Tools: CET, PET, USIT
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Squeeze Definition
The placement of a cement slurry under pressure against a permeable formation causing the slurry to dehydrate and create a cementitiousseal across the formation face.
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Primary Squeeze Concerns
Squeeze Purpose
Reasons for Failure
Formation Types
Establishing an Injection Rate
Method of Squeezing
Slurry Design Slurry Design
Laboratory Testing
Slurry Placementy
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Plug Cementing Definition
The placement of a cement slurry into the wellbore such that once hydrated a solid cement mass will occupy that section of the hydrated, a solid cement mass will occupy that section of the wellbore. This placement may occur in either open-hole sections or inside wellbore tubulars
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Purpose of Cementing Plugs
Lost Circulation
Whipstock/Kick-Off
Formation Testing
Zonal Isolation
Abandonment
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Factors Affecting Plug Instability
Fluid Density Difference
Hole Diameter/ Casing I.D.
Well Deviation
Plug Instability During Setting Can Result In:– Higher density cement moves down on low side of hole
– Lower density fluids migrate upward on the high side of the holeLower density fluids migrate upward on the high side of the hole
– Plug contaminated/ may not seal hole
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Successful Balanced Plug Aids
Batch Mix Cement
Use of Diverter Sub
Use of Stinger On Work String
Spot Viscous Pill or Mechanical Tool Under Cement Plug Prior To Attempting To Set Balanced Plug
Use Proper Volume of Compatible Spacerp p p
Circulate And Condition Wellbore Fluid – Prior To Setting Plug
Use (Displacement) Plug Catcher Method
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Two FloatsTwo Floats
Float failure means pressure must be Float failure means pressure must be held on the casing until the cement sets. Can cause micro-annuli
Use a float shoe and a float collar for Float
Casing
Use a float shoe and a float collar for redundancy.
FloatCollar
FloatShoe
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Adequate shoe joint
The length of casing between the float collar and float shoe. Also called the “shoe track”
The purpose of the shoe joint to top p jcontain contaminated or lightweight cement
Use at least two joints - more in larger ShoeT k Use at least two joints more in larger
casingTrack± 80’
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Summary
Cement has important functions in well control
Must be specifically designed for each job
Good cement design and good cement practices are needed to minimize failureminimize failure
Evaluate the job
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QUESTIONS ?QUESTIONS ?
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