Effect of Connate Water on Gas/Oil Relative Permeabilities for Water-Wet and Mixed-Wet Berea Rock

Narahara, G.M.; Pozzi, A.L.; Blackshear, T.H.

doi:10.2118/20503-pa

Cited by 13 publications

(14 citation statements)

References 6 publications

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“…In our work, the effect of initial water saturation on gas and oil relative permeabilities for strong liquid-wetting and intermediate gas-wetting for Berea is different from the work of Narahara et al 20 . In their work with water-wet and mixedwet Berea (water-wetting and mixed-wetting in the content of oil and water phases), they did not find any effect of initial water saturation on either gas or oil relative permeability.…”

Section: And the Modeling Results By LI Andcontrasting

confidence: 88%

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Tang

Firoozabadi

2000

All Days

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The wettability of Berea and chalk samples for gas-oil and gas-water fluids were altered from strong liquid-wetting to intermediate gas-wetting. Two polymers, FC-722 and FC-759, were used to alter the wettability. FC-759 is soluble in water and some 20 times less expensive than FC-722. Gas and liquid relative permeabilities were measured before and after wettability alteration. The results demonstrated a significant increase in liquid-phase relative permeability. Gas-phase relative permeability for a fixed saturation may increase or decrease. However, because of the very high liquid mobility and reduced liquid saturation, the gas mobility also increased for a fixed pressure drop. A number of liquid injectivity tests were also carried out. The results revealed that the liquid-phase mobility could increase significantly when the wettability of rocks was altered from strong liquid-wetting to intermediate gas-wetting. All the results show clearly that the application of wettability alteration to intermediate gas-wetting may significantly increase deliverability in gas condensate reservoirs. Gas-Water-Berea. The gas recovery by spontaneous water imbibition for the untreated core (B-3) and the treated cores (B-4 and B-13) is presented in Fig.4. B-4 and B-13 samples were treated with 2% FC-722 and 8% FC-759, respectively. Similar to the oil imbibition test, water imbibition rate for the untreated core was very high and the final gas recovery was about 58% (OGIP). For the treated cores (B-4 and B-13), water imbibition was negligible and the final gas recovery was less than 5% (OGIP). Gas-Oil-Chalk. Fig.5 presents the data of spontaneous oil imbibition for the untreated core (C-1) and the treated cores (C-2 and C-11). C-2 sample was treated with 2% FC-722 and C-11 sample was treated with 5% FC-759 twice. A high rate of oil imbibition was observed for the untreated core (C-1); the final gas recovery was about 65% (OGIP). For the treated cores (C-2 and C-11), the oil imbibition rate decreased significantly; the final gas recovery was less than 6% (OGIP). Gas-Water-Chalk. Fig.6 shows the data for the spontaneous water imbibition on tests the untreated and treated cores. C-1 sample was the same core previously used for oil imbibition test; C-3 sample was treated with 2% FC-722 and C-13 sample was treated with 8% FC-759. Water imbibition in the treated cores was very slow and the final gas recovery for C-3 sample was about 3% (OGIP) and for C-12 sample was about 8.5% (OGIP). The final recovery for the untreated core (C-1) was about 62% (OGIP). The results presented in Figs.3-6 demonstrate that wettability of Berea sandstone and Kansas chalk could be altered from strong liquid-wetting (SLW) to intermediate gaswetting by treatment with either FC-722 or FC-759.

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Section: And the Modeling Results By LI Andcontrasting

confidence: 88%

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Tang

Firoozabadi

2000

All Days

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“…In our work, the effect of initial water saturation on gas and oil relative permeabilities for strong liquid-wetting and intermediate gas-wetting for Berea is different from the work of Narahara et al 20 . In their work with water-wet and mixedwet Berea (water-wetting and mixed-wetting in the context of oil and water phases), they did not find any effect of initial water saturation on either gas or oil relative permeability.…”

Section: Chemical Adsorption and Effect On Permeabilitycontrasting

confidence: 88%

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Tang¹,

Firoozabadi²

2000

Proceedings of SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe wettability of Berea and chalk samples for gas-oil and gas-water fluids were altered from strong liquid-wetting to intermediate gas-wetting. Two polymers, FC-722 and FC-759, were used to alter the wettability. FC-759 is soluble in water and some 20 times less expensive than FC-722. Gas and liquid relative permeabilities were measured before and after wettability alteration. The results demonstrated a significant increase in liquid-phase relative permeability. Gas-phase relative permeability for a fixed saturation may increase or decrease. However, because of the very high liquid mobility and reduced liquid saturation, the gas mobility also increased for a fixed pressure drop.A number of liquid injectivity tests were also carried out. The results revealed that the liquid-phase mobility could increase significantly when the wettability of rocks was altered from strong liquid-wetting to intermediate gas-wetting. All the results show clearly that the application of wettability alteration to intermediate gas-wetting may significantly increase deliverability in gas condensate reservoirs.

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“…He emphasized that connate water (retained as water film and in small pores) could become re-mobilized when water is invading. However, results from Narahara et al 16 are much different. Skauge et al 14 studied the influence of connate water on oil recovery by gas gravity drainage using chalk samples.…”

Section: Introductionmentioning

confidence: 87%

Effect of Viscous Forces and Initial Water Saturation on Water Injection in Water-Wet and Mixed-Wet Fractured Porous Media

Tang

Firoozabadi

2000

Proceedings of SPE/DOE Improved Oil Recovery Symposium

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractA systematic study of the effect of wettability and initial water saturation on water injection and imbibition was made in Kansas outcrop chalk samples. Water injection tests were conducted at different rates and at different pressure gradients to study the effect of viscous forces. Based on a large number of carefully conducted tests, the following conclusions are drawn. 1. Initial water saturation has a very pronounced effect on water injection in an intermediate-wet chalk. This effect is much less pronounced for a strongly water-wet chalk. The effects are also in opposite directions. Viscous forces have a very strong effect on water injection performance on intermediate-wet chalks.Our interpretation of the above experiments lead to the conclusion that the performance of the chalk reservoirs may be nearly independent of wettability state. The results from the experiments also reveal that there is no relation between laboratory measurements of spontaneous imbibition and field performance even when wettability state is perfectly restored in the laboratory.

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Effect of Connate Water on Gas/Oil Relative Permeabilities for Water-Wet and Mixed-Wet Berea Rock

Cited by 13 publications

References 6 publications

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Relative Permeability Modification in Gas-Liquid Systems Through Wettability Alteration to Intermediate Gas-Wetting

Effect of Viscous Forces and Initial Water Saturation on Water Injection in Water-Wet and Mixed-Wet Fractured Porous Media

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