Author(s)

N.C.I. FURUVIK & B.M.E. MOLDESTAD

Abstract

Deep geologic injection of supercritical carbon dioxide (CO₂) for enhanced oil recovery (EOR) has been widely used for improved oil recovery from depleted oilfields since early 1970s. The CO₂ injection maintains the pressure, mobilize the oil and release the petroleum resources that would otherwise be inaccessible. In addition to improving the oil recovery, the CO₂-EOR contributes to minimize the impact of CO₂-emissions to the atmosphere. The injected CO₂ will be remained trapped in the under- ground geological formations, as the CO₂ replace the oil and water in the pores. Carbonate reservoirs are characterized by low permeability and high heterogeneity, resulting in early breakthrough of gas and water and hence low oil recovery. The presence of naturally fractures in carbonate reservoirs is a major problem for the oil industry using CO₂-EOR, because significant amount of CO₂  are recycled to the well, and thereby not distributes in the reservoir. This study focuses on CO₂  injection into a naturally fractured carbonate reservoir, including near-well simulations of CO₂-distribution in the rock matrix. The simulations are carried out using the reservoir simulation software Rocx in combination with OLGA. The simulations show that CO₂-injection into a naturally fractured carbonate reservoir in combination with closing of the fractured zones result in good distribution of CO₂ in the reservoir. 

Keywords

CO2-EOR, fractured carbonate reservoir, inflow control, near-well simulations.