The effect of natural fractures on CO 2 storage performance and oil recovery from CO 2 and WAG injection in an Appalachian basin reservoir

Natural fractures affect both the oil recovery from the enhanced oil recovery (EOR) process and the associated CO 2 storage during and after EOR. The main objective of this study is to evaluate two performance parameters: (1) oil recovery during CO 2 and water alternating gas (WAG) injection, and (2) CO 2 storage, during and after EOR, in a fractured oil reservoir of the Appalachian basin. While previous studies have shown the potential of CO 2 ‐EOR to enhance oil recovery in the Appalachian basin, this work investigates WAG performance in comparison to continuous CO 2 ‐EOR. A compositional numerical modeling approach was used to quantify the incremental oil recovery stemming from incorporating natural fractures. History matching of primary production and CO 2 huff‐and‐puff pilot test for a well producing from a depleted oil field in Ohio was used to assign the fracture network parameters in the dual continuum model. The scenarios modeled include continuous CO 2 and WAG injection under two injection pore volumes. Each scenario is followed by a CO 2 storage phase. These simulations help evaluate the performance of different scenarios in terms of oil recovery and CO 2 storage. Simulation results show how oil recovery and CO 2 storage vary significantly as a function of operational parameters. The results also show the amount of CO 2 stored during WAG injection is significantly lower than that stored during the storage phase at the end of oil recovery. In addition, the operational parameters during WAG affect the amount of CO 2 stored at the end of following storage phase. © 2020 Society of Chemical Industry and John Wiley & Sons, Ltd.