Will Carbon Dioxide Injection in Shale Reservoirs Produce from the Shale Matrix, Natural Fractures, or Hydraulic Fractures?

Author

Sherif Fakher
Youssef Elgahawy
Hesham Abdelaal
Abdulmohsin Imqam, Missouri University of Science and TechnologyFollow

Abstract

Enhanced oil recovery (EOR) in shale reservoirs has been recently shown to increase oil recovery significantly from this unconventional oil and gas source. One of the most studied EOR methods in shale reservoirs is gas injection, with a focus on carbon Dioxide (CO₂) mainly due to the ability to both enhance oil recovery and store the CO₂ in the formation. Even though several shale plays have reported an increase in oil recovery using CO₂ injection, in some cases this method failed severely. This research attempts to investigate the ability of the CO₂ to mobilize crude oil from the three most prominent features in the shale reservoirs, including shale matrix, natural fractures, and hydraulically induced fracture. Shale cores with dimensions of 1 inch in diameter and approximately 1.5 inch in length were used in all experiments. The impact of CO₂ soaking time and soaking pressure on the oil recovery were studied. The cores were analyzed to understand how and where the CO₂ flowed inside the cores and which prominent feature resulted in the increase in oil recovery. Also, a pre-fractured core was used to run an experiment in order to understand the oil recovery potential from fractured reservoirs. Results showed that oil recovery occurred from the shale matrix, stimulation of natural fractures by the CO₂, and from the hydraulic fractures with a large volume coming from the stimulated natural fractures. By understanding where the CO₂ will most likely be most productive, proper design of the CO₂ EOR in shale can be done in order to maximize recovery and avoid complications during injection and production which may lead to severe operational problems.

Recommended Citation

S. Fakher et al., "Will Carbon Dioxide Injection in Shale Reservoirs Produce from the Shale Matrix, Natural Fractures, or Hydraulic Fractures?," SPE Western Regional Meeting Proceedings, Society of Petroleum Engineers, Jan 2021.

The definitive version is available at https://doi.org/10.2118/200773-MS

Department(s)

Geosciences and Geological and Petroleum Engineering

Publication Status

Available Access

Comments

Missouri University of Science and Technology, Grant None

International Standard Book Number (ISBN)

978-161399717-8

Document Type

Article - Conference proceedings

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2024 Society of Petroleum Engineers, All rights reserved.

Publication Date

01 Jan 2021