Ethoxylated Cationic Surfactants for CO2 EOR in High Temperature, High Salinity Reservoirs

Chen, Yunshen; Elhag, Amro S.; Poon, Benjamin M.; Cui, Liang; Ma, Kun; Liao, Sonia Y.; Omar, Amr; Worthen, Andrew J.; Hirasaki, George J.; Nguyen, Quoc P.; Johnston, Keith P.

doi:10.2118/154222-ms

Cited by 50 publications

(48 citation statements)

References 19 publications

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“…To overcome these limitations, ethoxylated nonionic to cationic switchable amine surfactants were designed and introduced in a series of sand pack experiments (Chen et al 2012(Chen et al , 2014. Ethoxylated amines are switchable from being nonionic in brine to cationic in the presence of an acidic aqueous phase such as CO 2 (Elhag et al 2014a).…”

Section: Surfactant Foamsmentioning

confidence: 99%

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

et al. 2017

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Section: Surfactant Foamsmentioning

confidence: 99%

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

et al. 2017

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“…However, many papers report similar low mobility reductions to supercritical CO 2 as we achieved. (Adkins et al, 2009Chabert et al, 2012;Chen et al, 2012;Enick and Olsen, 2012;McLendon et al, 2012;Sanders et al, 2010;Xing et al, 2012). Interestingly, core foam tests in Berea sandstone without oil generated very strong supercritical CO 2 -foam using high surfactant concentrations of a Betaine instead of an AOS (Bian et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

“…CO 2 -foams are described as weaker. The numerous differences between CO 2 and N 2 are frequently discussed in context to the greater mobility of CO 2 -foams attained: surfactant properties against different interfaces, solubility effects related to CO 2 , lower interfacial tension between supercritical CO 2 and lamella, lower pH with CO 2 -foam, wettability alteration effects with the CO 2 -brine-rock system, greater density and viscosity properties to supercritical CO 2 (Adkins et al, 2009Chaubert et al, 2012;Chou, 1991;Farajzadeh et al, 2009Farajzadeh et al, , 2011Gauglitz et al, 2002;Heller 1994;Kibodeaux, 1997;Nonnekes et al, 2012;Rossen, 1996;Kuhlman et al, 1992).…”

Section: Introductionmentioning

confidence: 99%

Supercritical CO2-Foam - The Importance of CO2 Density on Foams Performance

Solbakken¹,

Skauge²,

Aarra³

2013

All Days

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In CO 2 projects for enhanced oil recovery (EOR) a critical factor is possible early CO 2 breakthrough and consequently poor sweep efficiency. Injection of foam can block and divert CO 2 which may improve sweep efficiency.Large changes in physical properties of CO 2 with temperature and pressure might affect CO 2 -foam performance under various reservoir conditions. Recently, we have focused on understanding supercritical CO 2 -foam properties and this paper describes the importance of supercritical CO 2 density on CO 2 -foam performance in outcrop Berea sandstone core material.Foam flooding experiments were conducted in sandstone core material at different pressures from 30 to 280 bar and at temperatures of 50 and 90°C using an AOS C14/16 surfactant. Results showed high foam strengths at low CO 2 density. In fact, the strongest supercritical CO 2 -foam was generated at the lowest supercritical CO 2 density tested, quite comparable to foam strength obtained with gaseous CO 2 . Only reduced foam strengths were found with dense supercritical CO 2 (MRF 3-11).Foam generation was studied with both equilibrated and non-equilibrated fluids. Previously, we showed that CO 2 -foam stability and blocking ability were strongly reduced when mass transfer occured. In this study delay in foam strength build-up was observed with non-equilibrated fluids. In addition, visual observations of the foam texture indicated larger bubbles.Compared to N 2 -foams at similar conditions CO 2 -foams were weaker and showed coarser foam structure.Recently in Aarra et al., (2012), we focused on understanding CO 2 -foam properties below and above the critical point of CO 2 (P c ≈ 73.8 bar, T c ≈ 31.0°C). Strong CO 2 -foams were generated when CO 2 was in its gaseous state (30 bar, 50°C). Weaker foams were generated at supercritical conditions (120 and 280 bar, 50°C) using an alpha olefin sulfonate (AOS C14/16 ) surfactant. Lower density difference between CO 2 phase and water, and choice of surfactant were discussed in context to the

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“…Chen et al (2012) and Elhag et al (2014) demonstrated that apparent viscosities of foams measured with a capillary viscometer were more than 8 cP at variable temperatures and foam qualities with a switchable ethoxylated cationic CO 2 -philic surfactant. They found that the delivery media of CO 2 -soluble surfactant imposed less impact.…”

Section: Introductionmentioning

confidence: 99%

“…Adkins et al (2010a, b) and Chen et al (2010) have proven that a branched hydrocarbon nonionic surfactant can effectively reduce the contact of CO 2 and water phases and raise the surface pressure and the surfactant efficiency (the concentration to produce 20 mN/m interfacial tension reductions). Chen et al (2012) developed a switchable ethoxylated cationic CO 2 -philic surfactant which was able to stabilize CO 2 /water foams up to 182 g/L at 120°C, 3400 psia. Those hybrid surfactants combined the high cloud points of ionic surfactants with high solubility in CO 2 of nonionic surfactants.…”

Section: Introductionmentioning

confidence: 99%

Understanding aqueous foam with novel CO2-soluble surfactants for controlling CO2 vertical sweep in sandstone reservoirs

Ren

Nguyen

2017

Pet. Sci.

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The ability of a novel nonionic CO 2 -soluble surfactant to propagate foam in porous media was compared with that of a conventional anionic surfactant (aqueous soluble only) through core floods with Berea sandstone cores. Both simultaneous and alternating injections have been tested. The novel foam outperforms the conventional one with respect to faster foam propagation and higher desaturation rate. Furthermore, the novel injection strategy, CO 2 continuous injection with dissolved CO 2 -soluble surfactant, has been tested in the laboratory. Strong foam presented without delay. It is the first time the measured surfactant properties have been used to model foam transport on a field scale to extend our findings with the presence of gravity segregation. Different injection strategies have been tested under both constant rate and pressure constraints. It was showed that novel foam outperforms the conventional one in every scenario with much higher sweep efficiency and injectivity as well as more even pressure redistribution. Also, for this novel foam, it is not necessary that constant pressure injection is better, which has been concluded in previous literature for conventional foam. Furthermore, the novel injection strategy, CO 2 continuous injection with dissolved CO 2 -soluble surfactant, gave the best performance, which could lower the injection and water treatment cost.

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Ethoxylated Cationic Surfactants for CO2 EOR in High Temperature, High Salinity Reservoirs

Cited by 50 publications

References 19 publications

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

Supercritical CO2-Foam - The Importance of CO2 Density on Foams Performance

Understanding aqueous foam with novel CO2-soluble surfactants for controlling CO2 vertical sweep in sandstone reservoirs

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