core and petrophysical analysis to design a proper
TRANSCRIPT
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CORE AND PETROPHYSICAL ANALYSIS TO DESIGN A PROPER PERFORATION
TECHNIQUE FOR PRODUCTION ENHANCEMENT
A CASE STUDY, HASSI MESSAOUD FIELD
by:Said AbuBakr & Alban Collaku Schlumberger
Baidji Mohamed, Sonatrach
MENAPS-11-16
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• Overview of Hassi-Messaoud field
• Core analysis
• Perforation strategy & Case Study
• Conclusions
Outline
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Overview of Hassi-Messaoud Field
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Hassi Messaoud field
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Hassi Messaoud field
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X
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• Coarse Grain Thin Beds (CGTB)• Fractures
Core analysis
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• Over all studied area where stacked fluvial or tidal channels the Coarse Grain Thin Beds are present (D4, D2, ID, D1)
• The Coarse Grain Thin Beds exhibits good porosity and permeability values and greatly contribute to the well potential
• CGTB in terms of flow might have the same behavior as fractures
Coarse Grain Thin Beds (CGTB)
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Example of Coarse Grain Thin Beds (CGTB) with tight matrix from above and below
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Photographs showing good examples of Coarse Grain Thin Beds separated by tight horizontal barrier.
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• In the analyzed wells, most of thevertical and sub-vertical fractures arevery thin with aperture much less than1 mm and very often cemented
• The wells where the thin layers andvertical fractures meet together theycould provide good rates of production
Fractures
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Fractures partly cemented by quartz and asphalt cutting across cross-beds
Core samples of D2 drain of Hassi-Messaoud field
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Example of CGTB’s connected with vertical fracture.
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K-Phi Plot
Perm from fractures
Most of the perm from matrix (CGTB) with two trends
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• Perforations Conventions• Dynamic underbalance (PURE)• Multiple Shooting• Coarse Grain Thin Beds & Multiple PURE
Shooting• Case Study – MD4XX
Perforation strategy & Case Study
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Perforation Conventions
• Static Conditions• Overbalance, Ph>Pr• Balance, Ph=Pr• Underbalance, Ph<Pr
• Dynamic Conditions • A combination of reservoir and well information and
knowledge put together to calculate for a dynamic underbalance for optimal perforation tunnels cleaning under all the above static conditions
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Dynamic Underbalance PURE* • A technique to obtain a dynamic underbalance
during the perforation process
• Can be performed in one or several runs
• Applies for oil, gas, water, in vertical, slanted, and horizontal wells.
• PURE perforation can also be oriented.
• Increases productivity or injectivity by maximizing perforation cleanup
• Is not an alternative for other means of formation stimulation
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Dynamic Versus Classical
Classical Underbalance
Dynamic Underbalance PURE
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Multiple Shooting
The objective of multiple shooting Is to obtain more SPF in a small Size casing (as of case 4 ½”) In order to expose more of CGTB toThe wellbore for enhancing well Productivity.
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Single and multiple Shooting with thin layers
Black Lines are Perforation Tunnels
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6 SPF
12 SPF
Single and multiple Shooting with CGTB’s
Black Lines are Perforation Tunnels
6 SPF
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MD4XX PetrelComposite Log
Completion4 ½” LCP
OLD PLTGR NPHI K ILD
Phie, Phi core
Sw
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SPAN MD-4XX
PURE and FOUR Times shooting (10 spf)
PURE but NO DOUBLE shooting @ 5.5 spf
No PURE (only HSD) and shooting @ 6 spf
FlowHoleOpen Undamaged
Flow WellPerforated=PR
o
p
q
q
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MD-4XX
MD-4XX– Drilled by Sonatrach
in Hassi Messaoud field in 1994
– Formation pressure @ 2008 = 2800 psi
Proposed intervals for perforating – Jun-2008
PURE Punchers
Top Loaded
(m)
Bottom Loaded
(m)
Shot Density (spf)
Shot Density
(spf)1 X421 X429 2.50 0.502 X421 X429 2.50 0.503 X421 X429 2.50 0.504 X421 X429 2.50 0.505 X429 X437 2.50 0.506 X429 X437 2.50 0.507 X429 X437 2.50 0.508 X429 X437 2.50 0.509 X437 X445 2.50 0.50
10 X437 X445 2.50 0.5011 X437 X445 2.50 0.5012 X437 X445 2.50 0.50
GUN SUMMARY
PowerJet Omega, 2906 HMX
Run
Intervals in ligth blue used Fast Gauges
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Run 1 to 12: X421-X445 m (4 Times Shooting) Run #5
Run #12
Expected Dynamic Underbalance = 1200 psi
Real Dynamic Underbalance = 120 psi
Real Dynamic Underbalance = 180 psi
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Pulse Responses
26
Run #8
Run #9
Run #10Run #11
Run #6
160 psi
100 psi
80 psi
200 psi
160 psi
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Results MD-4XX – Before and After PURE
0
1000
2000
3000
4000
5000
0.0
2.5
5.0
7.5
6-Nov-07 1-Mar-08 11-Jun-08 14-Jun-08
Oil (m3/hr) Gas (m3/hr)
MD-4xx (Production Results before and after PURE perforating)
PURE and PowerJet Omega
job
Choke reduced from 15 mm to 12 mm
Testing Data
Choke Size
GOR
mm Oil Gas WHP FlowlineSeparator ProducedInjected
6-Nov-07 15 0.80 1170.5 1,469 19.2 12.5 3.98 19 620 7201-Mar-08 15 0.60 986.91 1,637 19 15 2.16 10 0
11-Jun-08 15 5.99 3807.2 636 34 15.5 5.4 34 20014-Jun-08 12 4.52 2856.4 632 47.8 16.8 6.42 33 240
Testing Data Before Re-Perforation
Testing Data After Re-Perforation
Pressure (kg/cm2)Flow Rates
(m3/h)Water flowrates
(l/h)Oil
Temperature (degC)
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Conclusions• The well completion design to allow of all or majority
of the Coarse Grain Thin Beds and the fractures to contribute in well production is a key of success of production enhancement.
• In the case of tight reservoir with CGTB’s and fractures, the best way is to complete open hole (bare foot completion) or to perforate with the highest shot density and deep penetration of a feasible gun technology.
• In the MD 4XX case, Multiple Dynamic underbalance perforation technology is used with very good results.
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THANK YOU