Abstract
Bakken is the most productive formation among unconventional plays in North America. This formation has 7.4 billion barrels of recoverable oil. However, the primary oil recovery is still low as 5-10%. Miscible natural gas and carbon dioxide (CO2) might be the most two potential strategies to improve oil recovery in such complex play. In this study, some of the IOR pilots which have been conducted in Montana, North Dakota, and South Saskatchewan have been presented. The performance results of these pilots in US-Bakken versus Canadian-Bakken have been compared. Moreover, the reasons beyond the successful IOR pilots in Canadian-Bakken versus US-Bakken have been discussed. Then, numerical simulation models have been constructed to mimic the results of these pilots. Two different compositional models have been built for two different formation-oils. Furthermore, two different models, single porosity model and dual permeability model have been created to match the performance of some pilot-tests. Implementation of molecular diffusion mechanism has been conducted in both of single porosity and dual permeability model. Finally, continuous miscible gases injection versus huff-n-puff protocols have been compared and investigated. The results showed that the performance of natural gases generally over-performed the CO2 injection techniques in Bakken formation. Although the diffusion flow is dominant, the diffusivity of the injected CO2 into formation oil is slow due to its large molecules as compared with the small pore throats of these porous media. Accordingly, miscible CO2-EOR might be not beneficial in huff-n-puff as compared to continuous flooding process. However, success of natural gases does not have that strong functionality of molar diffusivity. Therefore, their performance was much better than CO2 performance in the field scale of these tight formations. Furthermore, the numerical simulation of this study concluded that the spacing between the production wells and injection wells should be minimized, for the continuous flooding process of miscible-gases EOR, to enhance their performance. Although the permeability of Canadian-Bakken has permeability of 1-2 order higher than the permeability of US-Bakken, the spacing between injectors and producers in Canadian Bakken is interestingly much shorter than that for US-Bakken, which might be the reason beyond the EOR success in Canadian Bakken. Finally, the activation process for the highly intensive natural fractures might be the key to enhance the diffusivity of CO2-EOR. Otherwise, natural gases are highly recommended to be the most potential EOR in these types of reservoirs. This study explains how diffusion mechanism of miscible gases affects their performance to improve oil recovery in these plays since they are more complex and very different from conventional formations. Also, it suggests that CO2 flooding process would be a good practice to overcome the limitations of CO2-diffusion rate in these reservoirs.
Recommended Citation
D. Alfarge et al., "Analysis of IOR Pilots in Bakken Formation by using Numerical Simulation," Society of Petroleum Engineers - SPE Abu Dhabi International Petroleum Exhibition and Conference 2017, Society of Petroleum Engineers, Jan 2017.
The definitive version is available at https://doi.org/10.2118/188633-ms
Department(s)
Geosciences and Geological and Petroleum Engineering
Publication Status
Available Access
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 2017
Included in
Biochemical and Biomolecular Engineering Commons, Geological Engineering Commons, Petroleum Engineering Commons