Comparison of WAG and Water Over Injection for Carbon Storage and Oil Recovery in a Heavy Oil Field

Sobers, Lorraine

doi:10.2118/158322-ms

All Days 2012

DOI: 10.2118/158322-ms

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Comparison of WAG and Water Over Injection for Carbon Storage and Oil Recovery in a Heavy Oil Field

Lorraine Sobers

Abstract: Compositional reservoir simulation studies show that CO2 enhanced oil recovery (CO2EOR) combined with carbon storage using water over gas injection improves production performance and carbon storage compared to WAG injection. The fluid description is based on matching the PVT-derived viscosity, total and relative volume of a heavy oil sample (density 893 kg/m3 [17 degrees API]). The reservoir description is based on an unconsolidated deltaic, sandstone deposit in the Gulf of Paria, offshore Trinidad. Water ove… Show more

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Cited by 3 publications

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Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water Over Gas Injection in the Forest Reserve Field, Trinidad

Jones¹,

Sobers²

2014

SPE Energy Resources Conference

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A combination of geologic carbon dioxide (CO 2 ) sequestration and CO 2 enhanced oil recovery (CO 2 EOR) can address the two of Trinidad and Tobago's energy sector challenges: falling oil production and increasing CO 2 emissions. Geologic storage of CO 2 in heavy oil reservoirs can increase oil production while injected CO 2 is effectively sequestered. Our investigations are based on 225 ft (~69 m) of the unconsolidated Lower Forest sand, average porosity and permeability of 32% and 125 md, respectively, found within the Forest reserve field, Trinidad. The middle section of this sand package contains a 26 ft (8m) thick layer of shaly sand with average permeability 70 md and average porosity 28%. We used reservoir simulations to determine the impact of dip and reduced transmissibility on the performance of the water over gas injection strategy using CO 2 . From our results we conclude that the reduced vertical transmissibility and dip affects the formation of the oil bank, water underride and the rate of CO 2 migration.Keywords heavy oil · unconsolidated · WAG · water over gas · transmissibility · carbon storage

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Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water Over Gas Injection in the Forest Reserve Field, Trinidad

Jones¹,

Sobers²

2014

SPE Energy Resources Conference

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Evaluation of the Effect of Water Salinity, Water Viscosity, and Injection Strategy on Heavy Oil Recovery and Carbon Dioxide Storage in the Forest Reserve Field, Trinidad

Dewan

Sobers

2018

Day 2 Tue, June 26, 2018

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Although Trinidad and Tobago has an abundant supply of relatively pure CO2 and more than 1 billion barrels of heavy oil deposits there are no active enhanced oil recovery (EOR) projects using carbon dioxide (CO2). In this paper, we have performed black oil simulation studies to evaluate several injection strategies with carbonated water, varying the salinity and viscosity of injected water. The salinity was varied by 1,000 and 35,000 ppm. The viscosity was increased by adding 0.1 weight percent polymer to injected water. The investigation was carried out using a commercial reservoir simulator. The simulation grid represents the properties of a quarter five-spot of the Lower Forest sand of the Forest Reserve Field. The reservoir simulation components used are water, polymer, H, Na, Cl-, dead oil, solution gas and CO2. The Stone #1 three-phase relative permeability model was used to calculate the three-phase relative permeabilities from two-phase data. In addition, a factorial experimental design was utilized and twelve simulation runs were done along with nine benchmark runs for comparison to other EOR methods. From the results obtained the following was concluded: water salinity has no effect on either oil recovery or carbon dioxide storage; polymer injection increases oil recovery and carbon dioxide storage. We found the optimal injection strategy to be a cycling of carbonated water alternating with polymer injection.

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Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water over Gas Injection in the Forest Reserve Field, Trinidad

Jones¹,

Sobers²

2014

Day 2 Tue, June 10, 2014

View full text Add to dashboard Cite

A combination of geologic carbon dioxide (CO2) sequestration and CO2 enhanced oil recovery (CO2EOR) can address the two of Trinidad and Tobago's energy sector challenges: falling oil production and increasing CO2 emissions. Geologic storage of CO2 in heavy oil reservoirs can increase oil production while injected CO2 is effectively sequestered. Our investigations are based on 225 ft (~69 m) of the unconsolidated Lower Forest sand, average porosity and permeability of 32% and 125 md, respectively, found within the Forest reserve field, Trinidad. The middle section of this sand package contains a 26 ft (8m) thick layer of shaly sand with average permeability 70 md and average porosity 28%. We used reservoir simulations to determine the impact of dip and reduced transmissibility on the performance of the water over gas injection strategy using CO2. From our results we conclude that the reduced vertical transmissibility and dip affects the formation of the oil bank, water underride and the rate of CO2 migration.

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Comparison of WAG and Water Over Injection for Carbon Storage and Oil Recovery in a Heavy Oil Field

Cited by 3 publications

References 28 publications

Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water Over Gas Injection in the Forest Reserve Field, Trinidad

Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water Over Gas Injection in the Forest Reserve Field, Trinidad

Evaluation of the Effect of Water Salinity, Water Viscosity, and Injection Strategy on Heavy Oil Recovery and Carbon Dioxide Storage in the Forest Reserve Field, Trinidad

Comparison of the Impact of Dip and Vertical Transmissibility on Oil Recovery and Carbon Storage Using Water over Gas Injection in the Forest Reserve Field, Trinidad

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