Abstract
This paper reports on a comprehensive study of the CO2-EOR (Enhanced oil recovery) process, a detailed literature review and a numerical modelling study. According to past studies, CO2 injection can recover additional oil from reservoirs by reservoir pressure increment, oil swelling, the reduction of oil viscosity and density and the vaporization of oil hydrocarbons. Therefore, CO2-EOR can be used to enhance the two major oil recovery mechanisms in the field: miscible and immiscible oil recovery, which can be further increased by increasing the amount of CO2 injected, applying innovative flood design and well placement, improving the mobility ratio, extending miscibility, and controlling reservoir depth and temperature. A 3-D numerical model was developed using the CO2-Prophet simulator to examine the effective factors in the CO2-EOR process. According to that, in pure CO2 injection, oil production generally exhibits increasing trends with increasing CO2 injection rate and volume (in HCPV (Hydrocarbon pore volume)) and reservoir temperature. In the WAG (Water alternating gas) process, oil production generally increases with increasing CO2 and water injection rates, the total amount of flood injected in HCPV and the distance between the injection wells, and reduces with WAG flood ratio and initial reservoir pressure. Compared to other factors, the water injection rate creates the minimum influence on oil production, and the CO2 injection rate, flood volume and distance between the flood wells have almost equally important influence on oil production.
Highlights
Oil is one of the most important substances to modern human civilization
A comprehensive study of the CO2 injection-enhanced oil recovery process and the factors affecting it was conducted by undertaking a detailed literature review and developing an advanced numerical model
Oil reservoirs with more than 25 ̋ API oil gravity and located at more than 915 m depth are selected for miscible oil recovery and others are selected for immiscible recovery
Summary
Oil is one of the most important substances to modern human civilization It is still the major source of energy for the world, and is a critical resource for the petrochemical industry, which is responsible for many household products and medicines. EOR process the increases oilfrom production fromCO reservoirs. Green and thermal recovery processes are the most advanced that contribute significantly to daily [5], thermal recovery processes are the EOR mostprocesses advanced processes that contribute oil production in theoil world. According to Gozalpour et al [14], the CO2 -EOR technique can be used to permanently store CO2 in geological formations under the right reservoir conditions, the use of anthropogenic CO2 for the process may be subject to considerable economic restrictions. The CO2 -Prophet numerical modelling software was used to conduct a comprehensive to investigate the factors affecting the CO2 -EOR process, in order to identify the optimum conditions to recover a maximum amount of oil
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