optimization of infill drilling in naturally-fractured … of infill drilling in naturally-fractured...
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Optim ization of Infill Drilling in Naturally-FracturedOptim ization of Infill Drilling in Naturally-FracturedTight-Gas Reservoirs of the San Juan BasinTight-Gas Reservoirs of the San Juan Basin
Lawrence W. Teufel
Petroleum Engineering DepartmentNew Mexico Institute of Mining and Technology
Socorro, New Mexico
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Project Team• Her-Yuan Chen – Well test and production analysis• Tom Engler – Reservoir characterization and simulation• Bruce Hart – Geophysical studies• Mike Kelly – Reservoir simulation• John Lorenz – Characterization of natural fractures
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Acknowledgments• Project is supported by NETL with DOE/Industry Cooperative
Agreement DE-FC26-98FT4086
• Industry Partners- BP- Burlington Resources- Conoco-Philllips Petroleum- Williams Energy
• NM Tech - Industry Consortium on Naturally-Fractured andStress-Sensitive Reservoirs
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Optimization of Infill Well Locations in Naturally-FracturedTight-Gas Reservoirs Requires a Multi-Disciplinary Approach
• Reservoir characterization to determine reservoir heterogeneity, net paythickness, and effective porosity from integrated log analyses.
• Characterization of natural fracture systems to determine orientation,distribution, and intensity from geological and geophysical studies; and assessinfluence of fractures on reservoir permeability and permeability anisotropyfrom numerical models.
• Analyses of well tests and production data to determine reservoir permeabilityand permeability anisotropy.
• Reservoir simulation studies to determine - distribution of net pay, effective porosity, and reservoir permeability - well drainage shape and area - distribution of reservoir pressure and potential well interference - optimal location and number of infill wells - forecast of increased gas recovery.
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Generalized Stratigraphy of San Juan BasinGeneralized Stratigraphy of San Juan Basin
MES
OZO
ICC
ENO
ZOIC
ERA SYSTEM FORMATION THICKNESS PRODUCTION
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Naturally-Fractured Tight-GasSandstone Reservoirs
Mesaverde Group
Porosity : 6 – 12%
Permeability : < 0.01 D (Matrix)
0.01– 60 D (Reservoir)
Pore Pressure : 0.23 psi/ft
Overburden Stress : 1.03 psi/ft
San Juan BasinSan Juan Basin
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Vertical Partially-Filled Extension Fracture inVertical Partially-Filled Extension Fracture inMesaverde CoreMesaverde Core
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N
Orientations of Natural Fractures inMesaverde Sandstone at Heron Lake, NM
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Fracture Network in DakotaFracture Network in DakotaSandstone OutcropSandstone Outcrop
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N
Fracture Network MapFracture Network Map
10 m
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Reservoir Permeability is AnisotropicReservoir Permeability is Anisotropic
kmin = 0.03 mD
kmax = 3.34 mD
kMatrix = 0.01 mDN10 m
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Com parison of W ell Drainage AreasCom parison of W ell Drainage Areas
ba
k
Isotropic Anisotropic
kminkmax
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`
kminkmaxk
Optim al Location of Infill W ell is Optim al Location of Infill W ell is Dependent on Shape of Drainage AreaDependent on Shape of Drainage Area
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`
kminkmax
Rotation of Offset W ells Elim inates DrainageRotation of Offset W ells Elim inates DrainageOverlap and Increases Drainage of ReservoirsOverlap and Increases Drainage of Reservoirs
with Anisotropic Perm eabilitywith Anisotropic Perm eability
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Increase in Cum ulative Production for Offset W ellIncrease in Cum ulative Production for Offset W ellRotated 10° from M axim um Perm eabilityRotated 10° from M axim um Perm eability
DirectionDirectionC
umul
ativ
e Pr
oduc
tion
[BSC
F]
1960 1965 1970 1975 1980 1985 1990 1995 20000
0.2
0.4
0.6
0.8
1
1.2
1.41.6
1.8
MesaverdeFormation
Kmax / Kmin = 10
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Gas Recovery Increases with Rotation OfGas Recovery Increases with Rotation OfW ell Alignm ent from Direction of M axim umW ell Alignm ent from Direction of M axim um
Perm eabilityPerm eabilityIn
crea
sed
Rec
over
y [%
]
45
40
35
30
25
20
15
10
50
0 10 20 30 40Well Alignment [deg]
Kmax / Kmin = 10
MesaverdeFormation
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Natural Fractures and Drainage AreaNatural Fractures and Drainage Area
Production from tight-gas sandstone reservoirs of the Mesaverdeand Dakota formations in the San Juan Basin is highly dependenton natural fractures.
Fractures not only enhance the overall permeability of thesereservoirs, but also create significant permeability anisotropy.
Permeability anisotropy causes the drainage area around wells tobe elliptical.
Elongated drainage creates more production interference anddrainage overlap between adjacent wells and increase the potentialfor leaving large sections of the reservoir undrained.
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Pilot Study Areas in San Juan BasinPilot Study Areas in San Juan Basin
Outcrops ofPictured Cliffs FM
CONM
Farmington
Cuba
Mesaverde& DakotaPlays
20 mi
N
27N5W28N7W
29N7W30N8W
31N6W31N12W32N11W 32N10W
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`
N
Deviation from north
New infill well
Existing well
DrainageKmin
Kmax
W ell Drainage Area in Reservoir withW ell Drainage Area in Reservoir withAnisotropic Perm eabilityAnisotropic Perm eability
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`
Form ation Pressure in Offset W ells IncreasesForm ation Pressure in Offset W ells Increaseswith Increasing Rotation from Direction ofwith Increasing Rotation from Direction of
M axim um Perm eabilityM axim um Perm eabilityD
evia
tion
from
N/S
[deg
]
350 400 450 500 550 600 650 700 750 8000
5
10
15
20
25
30
3540
45
SICP [psi]
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Elliptical Drainage Area Is Aligned withElliptical Drainage Area Is Aligned withM axim um Perm eability DirectionM axim um Perm eability Direction
Kmin
Kmax
Existing wellDrainage
Model boundary
N
POW 1 mile
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Infill Drilling W ill Increase Gas RecoveryInfill Drilling W ill Increase Gas Recovery
1990 2000 2010 2020 2030 2040 20500
10
203040
50
6070
8090
100
BC
F
Proposed 80acre spacing
Existing wells on160 acre spacing
12 34
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BC
F
160 acrespacing
90807060
50
4030
2010
0
80 acrespacing
Current wells 1 well persection
2 wells persection
3 wells persection
4 wells persection
Infill Drilling W ill IncreaseInfill Drilling W ill IncreaseGas RecoveryGas Recovery
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`
Elliptical Drainage of W ells Is AlignedElliptical Drainage of W ells Is AlignedW ith M axim um Perm eability DirectionW ith M axim um Perm eability Direction
Kmin
Kmax
Existing wellDrainage
Model boundary1 mile
N
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`
Infill Drilling will Increase Gas RecoveryInfill Drilling will Increase Gas Recovery
Proposed 80acre spacing
Existing wells on160 acre spacing
4321
70
60
50
40
30
20
10
01980 1990 2000 2010 2020 2030 2040
BC
F
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Infill Drilling W ill Increase Gas RecoveryInfill Drilling W ill Increase Gas Recovery
4 wells persection
New wellsOld wells
80 acrespacing
160 acrespacing
3 wells persection
2 wells persection
1 well persection
Current wells
70
60
50
40
30
20
10
0
BC
F
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High Fracture Intensity
Low Fracture Intensity
High Fracture Intensity(With Isotropic Permeability)R
ecov
ery
per w
ell [
BC
F]
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.01
Number Infill Wells/Section2 3 4
Potential for Increased Recovery IsPotential for Increased Recovery IsGreater In Reservoirs with Low FractureGreater In Reservoirs with Low Fracture
IntensityIntensity
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Existing Wells Infill Wells
93A
93R
47
47B
47A
64B64C
57C57A 64
64A57
57B
37
37B 37C
38A
38
37A
85B 85C
84AC85
85A 84
Section 2 Section 1
Section 11 Section 12
Well Locations for Pilot 29N7W
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Cum
. Gas
Pro
duct
ion,
BC
F
80
70
60
50
40
30
20
10
0No Infill Wells Hypothetical
Wells On NS Direction
Actual Well Locations
80 Acre Infill Drilling
Cumulative Gas Production Forecast for Pilot 29N7W
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Production Forecast of Infill Wells for Pilot 29N7W
Cum
. Gas
Pro
duct
ion,
MM
cf
3000
2500
2000
1500
1000
500
0
80 Acre Infill Drilling
57A 57B 64B 85C 47B 57C 93R 37B 64C 85B
3500
39%
69%
39%29%
12% 49%62%
7% 95%
67%
50%
Actual Well Location
Hypothetical Well on NS Direction
Infill Wells
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Fracture Swarm s EnhanceFracture Swarm s EnhanceReservoir Perm eability AnisotropyReservoir Perm eability Anisotropy
Kmin
Kmax
Existing wellDrainage
1 mile
Kmin
Kmax
Fracture swarm
N
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SUM M ARYSUM M ARY
Reservoir characterization and simulation studies are beingconducted on naturally-fractured tight-gas reservoirs in theSan Juan Basin to
(1) Define the elliptical drainage area and recoverable gas for existing wells,(2) Determine the optimal location and number of new infill wells to maximize economic recovery,(3) Forecast the increase in total cumulative gas production from infill drilling at different locations in the basin.
Optimal infill drilling of the Mesaverde formation in the San JuanBasin may increase recoverable gas by 7.8 TCF.