twinjet completion for improved horizontal well performance · horizontal wellbore hydraulics...
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TwinJetTwinJet™™ CompletionCompletionfor for
Improved Horizontal Well PerformanceImproved Horizontal Well Performance
a division of
a division of
Hydraulics Issues for Hydraulics Issues for
Conventionally CompletedConventionally Completed
Horizontal WellsHorizontal Wells
Horizontal Wellbore Hydraulics Issues:
• Extensive data showing limited drainage performance in many horizontal well completions
• Often 30 to 70% of wellbore has never flowed oil or gas
Drainage Area
Frac Fluid / Drilling Mud
Horizontal Wellbore Hydraulics Issues:
Drainage Area
• Method Required to Increase Drainage Area:• Land pump in lateral section (?)
Drainage Area
Horizontal Wellbore Hydraulics Issues:
LiquidHold-up
inAnnulus
Gas
Gas & Oil
Oil
Gas
Oil
Gas &
Oil
• Issues for landing pump in lateral section:• High gas rates “up stream” of the jet pump can cause flow interference
• Sweeping of fluid into casing & vertical
• Liquid hold-up & increased BHP
Well Trajectory Effects:
Lateral AbovePump
TwinJetTwinJet™™ CompletionCompletion
for for
Improved Horizontal Well PerformanceImproved Horizontal Well Performance
a division of
Jet Pump
#1
Jet Pump
#2
SREP TwinJet™ Completion:
• Dual jet pump solution:
• Dual tubing completion options:
• two 1.25” x 2.375” concentric strings:
• One landed near the toe of the lateral
• One landed at the heel
• one 1.5” x 2.875” & one 1.25” x 2.375” concentric strings:
• 2.375” landed near the toe of the lateral
• 2.875” landed at the heel
• Dual wellhead
• Single surface pump package
• Individual jet pumps on each concentric tubing string
• Optimized nozzle / throats for lateral and heel production1.25” x 2.375”
Concentric
Jet Pump String #2
1.25” x 2.375”
Concentric
Jet Pump String #1
Drainage Area
Jet Pump
#1
Jet Pump
#2
SREP TwinJet™ Completion:
• Dual jet pump solution:
• Dual tubing completion options:
• two 1.25” x 2.375” concentric strings:
• One landed near the toe of the lateral
• One landed at the heel
• one 1.5” x 2.875” & one 1.25” x 2.375” concentric strings:
• 2.375” landed near the toe of the lateral
• 2.875” landed at the heel
• Dual wellhead
• Single surface pump package
• Individual jet pumps on each concentric tubing string
• Optimized nozzle / throats for lateral and heel production1.25” x 2.375”
Concentric
Jet Pump String #2
1.25” x 2.375”
Concentric
Jet Pump String #1
Jet Pump
#1
Drainage Area
Jet Pump
#2
SREP TwinJet™ Completion:
Optimize Lift Performance for Each Jet Pump
TwinJetTM Analysis - "Toe" Pump Performance:1800 m TVD / 3500 m MD / 4750 psi max Injection Pressure
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
0 10 20 30 40 50 60
Production Rate (m3/D)
BH
P (k
Pa)
0
10
20
30
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60
70
Hor
sepo
wer
Prod Rate (m3/D)
HP
TwinJetTM Analysis - "Heel" Pump Performance:1800 m TVD / 1990 m MD / 4750 psi max Injection Pressure
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
0 20 40 60 80 100
120
140
160
Production Rate (m3/D)
BH
P (k
Pa)
0
20
40
60
80
100
120
Hor
sepo
wer
Prod Rate (m3/D)
HP
TwinJetTM Analysis - Combined Pump Performance:1800 m TVD / 1990 m MD / 4750 psi max Injection Pressure
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
0 20 40 60 80 100
120
140
160
180
200
Production Rate (m3/D)
BH
P (k
Pa)
0
20
40
60
80
100
120
140
160
180
Hor
sepo
wer
Prod Rate (m3/D)
HP
Jet Pump
#1
Drainage Area
Jet Pump
#2
SREP TwinJet™ Completion:
Test return flows to assess water cuts
Jet Pump
#1
Drainage Area
Jet Pump
#2
SREP TwinJet™ Completion:
Optimize Jet Pump operation to reduce total water cut
Changing Artificial Lift Technology
a division of