1982
DOI: 10.2118/8998-pa
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Surfactant Flooding 1: The Effect of Alkaline Additives on IFT, Surfactant Adsorption, and Recovery Efficiency

Abstract: This paper examines the effects of alkaline additives on dilute surfactant systems for improved oil recovery. The study was limited to the determination of the effects of alkaline additives on interfacial tension (IFT), surfactant adsorption or retention in Berea cores, and improvement in oil recovery. The alkaline chemicals studied were sodium silicates, sodium phosphates, sodium carbonate, and sodium hydroxide. In addition, optimal salinities and surfactant average equivalent molecular weight for the recover… Show more

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Cited by 96 publications
(34 citation statements)
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“…Oil-water IFTs were determined by Spinning Drop Tensiometer at In coreflood experiments with surfactant it was found that surfactant was retained initially, but was released during the extended waterflood and A slug injection (Table 2) following A/S slug injection. On the otherhand, Krumrine et al (1982) also observed this phenomenon with petroleum sulfonate and Berea core, during saline postflush following sodium carbonate. It is seen that addition of NaOH in the extended waterflood improved oil recovery in both Figs.…”
Section: Analysis Of Interaction In Desorbed Surfactant/alkali/oil Symentioning
confidence: 61%
“…Oil-water IFTs were determined by Spinning Drop Tensiometer at In coreflood experiments with surfactant it was found that surfactant was retained initially, but was released during the extended waterflood and A slug injection (Table 2) following A/S slug injection. On the otherhand, Krumrine et al (1982) also observed this phenomenon with petroleum sulfonate and Berea core, during saline postflush following sodium carbonate. It is seen that addition of NaOH in the extended waterflood improved oil recovery in both Figs.…”
Section: Analysis Of Interaction In Desorbed Surfactant/alkali/oil Symentioning
confidence: 61%
“…These factors include the surfactant types (Hayes et al, 1979), chemistry (Enedy et al, 1982;Hirasaki et al, 1983;Krumrine et al, 1982), phase behavior (Glover et al, 1979;Novosad, 1982), chemicals adsorption (Austad et al, 1997), surfactant precipitation and redissolution (Somasundaran et al, 1984), chromatographic separation of chemicals (Li et al, 2009), surfactant convection (Ramirez et al, 1980), surfactant stability (Handy et al, 1982), chemicals loss (Friedmann, 1986), dispersion (Hirasaki, 1981), surfactant systems formulation (Salager et al, 1979), wettability , reservoir rock structure and morphology (Dullien et al, 1972;Yadali Jamaloei and Kharrat, 2009;Yadali Jamaloei et al, 2011a), and reservoir heterogeneity (Ma et al, 2007). The morphology and heterogeneity of the reservoir rock play a significant role in the behavior of chemical flooding processes.…”
Section: Factors That Influence the Chemical Floodingmentioning
confidence: 99%
“…• Adsorption of anionic surfactants is low with the addition of an alkali, especially with sodium carbonate 23,[41][42][43] ;…”
Section: Surfactant Formulationsmentioning
confidence: 99%