Effect of Brine Composition On Wettability And Oil Recovery of a Prudhoe Bay Crude Oil

Yildiz, Hasan O.; Valat, Marc; Morrow, Norman R.

doi:10.2118/99-01-02

Cited by 57 publications

(33 citation statements)

References 4 publications

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“…Because of the significant change in oil recovery by spontaneous imbibition (Fig. 3a) and previously observed dependency of breakthrough recoveries on the composition of the injected brine, 4 further waterflood tests at lower Change in Connate-Brine Salinity. Imbibition.…”

Section: Salinity Identical Connate and Invading Brinesmentioning

confidence: 95%

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Salinity, Temperature, Oil Composition, and Oil Recovery by Waterflooding

Tang

Morrow

1997

SPE Reservoir Engineering

566

286

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The effect of aging and displacement temperatures and brine and oil composition on wettability and the recovery of crude oil by spontaneous imbibition and waterflooding has been investigated. This study is based on displacement tests in Berea sandstone with three crude oils and three reservoir brines (RB's). Salinity was varied by changing the concentration of total dissolved solids (TDS's) of the synthetic brine in proportion. Salinity of the connate and invading brines can have a major influence on wettability and oil recovery at reservoir temperature. Oil recovery increased over that for the RB with dilution of both the initial (connate) and invading brine or dilution of either. Aging and displacement temperatures were varied independently. For all crude oils, water wetness and oil recovery increased with increase in displacement temperature. Removal of light components from the crude oil resulted in increased water wetness. Addition of alkanes to the crude oil reduced the water wetness, and increased oil recovery. Relationships between waterflood recovery and rate and extent of oil recovery by spontaneous imbibition are summarized.

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Section: Salinity Identical Connate and Invading Brinesmentioning

confidence: 95%

“…[2][3][4] In this work, we show how differences in brine composition and temperature can affect wettability and oil recovery and present exploratory results on the effect of crude-oil composition.…”

Section: Introductionmentioning

confidence: 96%

Salinity, Temperature, Oil Composition, and Oil Recovery by Waterflooding

Tang

Morrow

1997

SPE Reservoir Engineering

566

286

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“…Numerous examples of the dependency of the efficiency oil recovery by waterflooding and spontaneous imbibition on brine composition have been reported (Jadhunandan and Morrow 1991, Yildiz and Morrow 1996, Yildiz, Valat and Morrow 1999, Tang and Morrow 1997, 1999a, 1999b, Morrow et al 1998. Increases in oil recovery of over 50% OOIP have been observed with change in brine composition.…”

Section: Introductionmentioning

confidence: 99%

“…The initial water saturation has a dominant effect on the wettability states induced by adsorption from crude oil because the distribution of water determines which parts of the rock surface are contacted by the oil (Salathiel 1973, Jadhunandan and Morrow 1995, Xie and Morrow 2001, Tong, Xie and Morrow 2002. It was also observed that brine composition could have a significant impact on oil recovery (Jadhunandan and Morrow 1995, Yildiz and Morrow 1996, Yildiz, Valat and Morrow 1999, Tang and Morrow 1997. It follows that there may be cases where attention to brine composition could lead to increased recovery and likely increase in the economic profitability of a waterflood.…”

Section: Introductionmentioning

confidence: 99%

Improved Water Flooding through Injection Brine Modification

Robertson¹,

Thomas²,

Morrow³

2003

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Crude oil/brine/rock interactions can lead to large variations in the displacement efficiency of waterflooding, by far the most widely applied method of improved oil recovery. Laboratory waterflood tests show that injection of dilute brine can increase oil recovery. Numerous fields in the Powder River basin have been waterflooded using low salinity brine (about 500 ppm) from the Madison limestone or Fox Hills sandstone. Although many uncertainties arise in the interpretation and comparison of field production data, injection of low salinity brine appears to give higher recovery compared to brine of moderate salinity (about 7,000 ppm). Laboratory studies of the effect of brine composition on oil recovery cover a wide range of rock types and crude oils. Oil recovery increases using low salinity brine as the injection water ranged from a low of no notable increase to as much as 37.0% depending on the system being studied. Recovery increases using low salinity brine after establishing residual oil saturation (tertiary mode) ranged from no significant increase to 6.0%. Tests with two sets of reservoir cores and crude oil indicated slight improvement in recovery for low salinity brine. Crude oil type and rock type (particularly the presence and distribution of kaolinite) both play a dominant role in the effect that brine composition has on waterflood oil recovery. v ACKNOWLEDGMENTSThis work was funded by the

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“…1 It has also been observed that the composition of the water can have a significant impact on wettability and oil recovery. 1,2,3,4 It follows that there may be cases where attention to injection water composition could lead to increased oil recovery and a likely increase in the economic profitability of a waterflood.…”

Section: Introductionmentioning

confidence: 99%

Low-Salinity Waterflooding to Improve Oil Recovery—Historical Field Evidence

Robertson

2007

SPE Annual Technical Conference and Exhibition

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Waterflooding is by far the most widely applied method of improved oil recovery. Crude oil/water/rock interactions can lead to large variations in the displacement efficiency of waterfloods. Laboratory waterflood tests and single-well tracer tests in the field have shown that injection of low-salinity water can increase oil recovery, but work designed to test the method on a multi-well field scale has not yet been undertaken. Historical waterflood records could unintentionally provide some evidence of improved recovery from waterflooding with lower salinity water. Numerous fields in the Powder River basin of Wyoming have been waterflooded using low salinity water (about 1000 ppm) obtained from the Madison limestone or Fox Hills sandstone. Three Minnelusa formation fields in the basin were identified as candidates for waterflood comparisons based on the salinity of the formation and injection water and reservoir characteristics. Historical production and injection data for these fields were obtained from public records. Field waterflood data were manipulated to display oil recovery in the same format as laboratory coreflood results. Recovery from fields using lower salinity injection water was greater than that using higher salinity injection water-matching recovery trends for laboratory and singlewell tests. IntroductionAlmost without exception, at the start of a waterflood, water from the cheapest source (usually different in composition than the initial formation water) is used as the injection water, provided injectivity is not adversely affected by formation damage. Historically, little consideration has been given in reservoir engineering practice to the effect of the composition of the salt in the injection water on waterflood displacement efficiency or to the possibility of increased oil recovery through manipulation of the injection water composition. Most laboratory relative permeability tests and displacement tests are done using synthetic formation water as both the for-

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Effect of Brine Composition On Wettability And Oil Recovery of a Prudhoe Bay Crude Oil

Cited by 57 publications

References 4 publications

Salinity, Temperature, Oil Composition, and Oil Recovery by Waterflooding

Salinity, Temperature, Oil Composition, and Oil Recovery by Waterflooding

Improved Water Flooding through Injection Brine Modification

Low-Salinity Waterflooding to Improve Oil Recovery—Historical Field Evidence

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