CO2 enhanced gas recovery and sequestration in depleted gas reservoirs: A review
View/ Open
Publisher version (Check access options)
Check access options
Date
2021Author
Hamza A.Hussein I.A.
Al-Marri M.J.
Mahmoud M.
Shawabkeh R.
Aparicio S.
...show more authors ...show less authors
Metadata
Show full item recordAbstract
Increasing CO2 emissions and global warming side effects have prompted the researchers to look for safe and reliable storage sites that have high capacity. Among the available CO2 capturing sinks, depleted gas reservoirs have high potential to sequester CO2. Depleted conventional and unconventional gas reservoirs have large pore space after natural gas production and pressure reduction. Moreover, their ability to store hydrocarbons for many years inside the sealed reservoir with impermeable cap rocks provides safer options than saline aquifers or other geological traps. Incremental recovery of residual natural gas after injecting CO2 could decrease the cost of the process. This review highlights the efforts made to investigate the CO2 adsorption/desorption for EGR applications under typical reservoir conditions in conventional depleted sandstone and carbonate reservoirs. Moreover, it analyzes the advances in CO2-EGR in unconventional resources such as coal beds and shale to extract the knowledge from these reservoirs. In addition, various factors that control the displacement efficiency of natural gas by injecting CO2 and the consequent influence of CO2 on rock integrity are discussed. Nanoscale basis of CO2-EGR using multiscale molecular simulation that could improve the design and operational conditions for CO2-EGR operations is overviewed. Furthermore, this article assesses the ecological and economic impact of storing CO2 in different types of reservoirs. Field pilot tests, as well as challenges in the application of the CO2-EGR technique, are also covered.
Collections
- Chemical Engineering [1175 items ]
- GPC Research [499 items ]
Related items
Showing items related by title, author, creator and subject.
-
Qatari tight Gas Reservoirs: Molecular Simulation insights toward Estimation of Ultimate Recovery (EUR) from Carbonated Reservoirs
Elbashier, Elkhansa; Hussein, Ibnelwaleed ( Qatar University Press , 2021 , Poster)The geometrical properties of the reservoir rocks are usually affected by natural thermodynamics or environmental changes that may affect the amount of gas in place in the reservoir. To address these properties, we conduct ... -
Novel methodology to couple decline curve analysis with CFD reservoir simulations for complex shale gas reservoirs
Khadri, Syed Oubee; Al-Marri, Mohammed J.; Nasser, Mustafa; Sadooni, Fadhil; Shirif, Ezeddin; Hussein, Ibnelwaleed A.... more authors ... less authors ( John Wiley and Sons Inc , 2024 , Article)Shale reservoirs are highly complex and are difficult to study using conventional reservoir simulation tools. This study introduces a novel methodology for estimating production from complex shale gas reservoirs by coupling ... -
A comparative study on long term stability of self-healing epoxy coating with different inorganic nanotubes as healing agent reservoirs
Vijayan, P. P.; El-Gawady, Y. Mohamed Hany; Al-Maadeed, M. Ali S.A. ( BME-PT and GTE , 2017 , Article)Self-healing epoxy coatings were prepared with different nanotubes as reservoirs for epoxy monomer (healing agent). The nanotubes selected for the current study were TiO2 nanotubes with two different tube diameter (TNT1 ...