TY - JOUR
T1 - Mechanistic investigation of bypassed-oil recovery during CO2 injection in matrix and fracture
AU - Khosravi, Maryam
AU - Bahramian, Alireza
AU - Emadi, Mohammadali
AU - Rostami, Behzad
AU - Roayaie, Emad
PY - 2014
Y1 - 2014
N2 - CO2 injection is currently one of the most popular EOR (Enhanced Oil Recovery) methods in the world, as its MMP (Minimum Miscibility Pressure) with oil is lower than other common injected gases. In this work, miscible, near-miscible and immiscible CO2 injection was investigated experimentally for both fracture and matrix systems. Different driving forces (such as diffusion, gravity, viscous and capillary) were studied with a system of hydrocarbon components with well-known properties in porous media, following a rational design and procedure. To ensure experiments were representative of reservoir conditions and to demonstrate the relative importance of active forces, pore and core scale dimensional analyses were conducted. During CO 2 injection in fracture, near-critical tests provided the highest recovery. Significant impact of gravity, swelling and vaporization was inferred from "ultimate recoveries," "variations of pore pressure," "the status of oil production," "recovery rate of corresponding pre-equilibrated test," and "dimensional analysis." In CO 2 injection in matrix, the maximum recovery was achieved for the first-contact-miscible displacement, as a result of IFT (Interfacial Tension) reduction.
AB - CO2 injection is currently one of the most popular EOR (Enhanced Oil Recovery) methods in the world, as its MMP (Minimum Miscibility Pressure) with oil is lower than other common injected gases. In this work, miscible, near-miscible and immiscible CO2 injection was investigated experimentally for both fracture and matrix systems. Different driving forces (such as diffusion, gravity, viscous and capillary) were studied with a system of hydrocarbon components with well-known properties in porous media, following a rational design and procedure. To ensure experiments were representative of reservoir conditions and to demonstrate the relative importance of active forces, pore and core scale dimensional analyses were conducted. During CO 2 injection in fracture, near-critical tests provided the highest recovery. Significant impact of gravity, swelling and vaporization was inferred from "ultimate recoveries," "variations of pore pressure," "the status of oil production," "recovery rate of corresponding pre-equilibrated test," and "dimensional analysis." In CO 2 injection in matrix, the maximum recovery was achieved for the first-contact-miscible displacement, as a result of IFT (Interfacial Tension) reduction.
KW - Near-miscible
KW - Swelling
KW - Vaporization
UR - http://www.scopus.com/inward/record.url?scp=84886515413&partnerID=8YFLogxK
U2 - 10.1016/j.fuel.2013.09.082
DO - 10.1016/j.fuel.2013.09.082
M3 - Article
AN - SCOPUS:84886515413
SN - 0016-2361
VL - 117
SP - 43
EP - 49
JO - Fuel
JF - Fuel
IS - PART A
ER -