Live oil – surfactant phase behavior Aparna Sagi, Maura Puerto, Clarence Miller, George Hirasaki...
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Transcript of Live oil – surfactant phase behavior Aparna Sagi, Maura Puerto, Clarence Miller, George Hirasaki...
![Page 1: Live oil – surfactant phase behavior Aparna Sagi, Maura Puerto, Clarence Miller, George Hirasaki April 23, 2012.](https://reader030.fdocuments.us/reader030/viewer/2022032523/56649d8d5503460f94a75278/html5/thumbnails/1.jpg)
Live oil – surfactant phase behavior
Aparna Sagi, Maura Puerto, Clarence Miller, George Hirasaki
April 23, 2012
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Introduction
• Surfactants ultra low IFT EOR • Optimal salinity (ultra-low IFT) for a surfactant
system dependent on– Oil composition: dead vs live oil– Temperature, pressure, WOR, etc
• Objective: Determine and compare surfactant optimal salinity
for dead and live crude oil (CO2, CH4,C2H6)
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System description
• Temperature: 30ºC• Surfactant: S13D/S2 (90/10 wt.) 1wt% (aq.)
– S13D: iC13 -13PO sulfate
– S2: C15-18 internal olefin sulfonate
• Brine: 11,000ppm (incl. Ca2+, Mg2+) – TB2• Crude oil: 28º API (dead) with
– No dissolved gas (dead oil)– Methane @ 600psi– Ethane @ 50psi, 95psi– Carbon dioxide @ 60psi, 600psi
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Experimental procedure – dead oil
Optimal salinity
Winsor Type - I
Winsor Type - II
Varying salinity
Winsor Type - III
mic
ro
mic
ro
Pipette (bottom sealed)
Brine + surfactant
Oil
Initial interface
Seal open end
24 hr
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Experimental procedure – live oil
PGas
Make live oilPGas
Oil
Purge cell of air Inject surf. solutionP
Surf.soln.
Inc. temp. to 30°CP
Hand mix sampleObserve phasesP
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Results – dead oil
70% 80% 90% 100% 110% 120%Salinity (% TB2)
Type I Type I Type II Type IIType IIType I
OIL
MICRO EMULSION
WATER
MACRO EMULSION
Vo/Vs ~ 6Optimal
Initial w/o interface
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Results – Methane @ 600psi
50% 70% 90% 110%Salinity (% TB2)
Type I Type I Type II Type II
OIL
MICRO EMULSION
WATER
MACRO EMULSION
Optimal
Initial w/o interface
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Results – Ethane @ 50psi
50% 60% 70% 80%Salinity (% TB2)
Type I Type I Type I Type II
OIL/ OIL+MACRO
MICRO EMULSION
WATER
MACRO
Vo/Vs ~ 13Optimal
Initial w/o interface
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Results – Ethane @ 95psi
30% 40% 50% 60%Salinity (% TB2)
Type I Type I ?? Type II
OIL
MICRO EMULSION
WATER
MACRO
Optimal
Initial w/o interface
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Results – CO2 @ 60psi
70% 80% 90% 100%Salinity (% TB2)
Type I Type I Type I Type II
OIL
MICRO EMULSION
WATER
MACRO
Optimal
Initial w/o interface
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Results –CO2 @ 600psi
10% 20% 30% 40% 50%Salinity (% TB2)
Type I Type I Type I Type II Type II
OIL
MICRO EMULSION
WATERMACRO
Optimal
Initial w/o interface
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Consolidated results
Methane
CO2
Ethane
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Conclusions
• The effect of dissolved gas (upto 600psi) on surfactant optimal salinity (CØ) has been demonstrated– Methane
• Slight decrease in optimal salinity
– Carbon dioxide • Decrease in the optimal salinity
– Ethane• Substantial decrease in optimal salinity
psi
TB
100
2%7.1
psi
TB
100
2%11
psi
TB
100
2%45
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QUESTIONS