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Numerical investigation of CO2-carbonated water-alternating-gas on enhanced oil recovery and geological carbon storage

Minsoo Ji, Seoyoon Kwon, Suin Choi, Min Kim, ByungIn Choi, Baehyun Min

2023Journal of CO2 Utilization39 citationsDOIOpen Access PDF

Abstract

This study investigates the potential of a novel CO2-carbonated water-alternating-gas (CWAG) injection method for enhanced oil recovery (EOR) and geological carbon storage. The Weyburn fluid data acquired from Canada are used in a compositional reservoir simulation of a CO2-CWAG case study with seven cycles in order to analyze the effects of carbonated water (CW) upon the oil recovery and CO2 storage capacity of a multi-phase CO2/brine/oil system. The study includes an assessment of the CO2 plume propagation and retention via structural, residual, and solubility trapping mechanisms. The numerical results demonstrate that CO2-CWAG yields a 6.7% increase in oil recovery compared to continuous CO2 flooding (from 68.4% to 73.0%) and a 1.4% increase compared to CO2-WAG (from 72.0% to 73.0%). During the CO2-CWAG operation, increasing the molarity of CO2 from 0.0 mol/L to 1.2 mol/L in carbonated water results in a 6.7% increase in the amount of geologically stored CO2 (from 6191 tons to 6608 tons). In brief, CO2-CWAG improves not only oil recovery but also CO2 storage capacity in terms of the three trapping mechanisms, thus making it a promising low-carbon EOR method that could help reduce CO2 emissions in the oil and gas industry.

Topics & Concepts

Enhanced oil recoveryCarbon dioxideBrineSolubilityPetroleum engineeringResidual oilPlumeEnvironmental scienceCarbon sequestrationCarbon capture and storage (timeline)Chemical engineeringChemistryEnvironmental engineeringGeologyOrganic chemistryEngineeringMeteorologyOceanographyPhysicsClimate changeCO2 Sequestration and Geologic InteractionsEnhanced Oil Recovery TechniquesMethane Hydrates and Related Phenomena