References
- Alzobai, S., Lotfollahi, M., Kim, I., Johnston, K.P. and DiCarlo, D.A. (2017) Carbon dioxide-in-brine foams at high temperatures and extreme salinities stabilized with silica nanoparticles. Energy & Fuels, v.31, p.10680-10690. https://doi.org/10.1021/acs.energyfuels.7b01814
- Babaei M. and Copty, N.M. (2019) Numerical modelling of the impact of surfactant partitioning on surfactant enhanced aquifer remediation. J. Contam. Hydro., v.221, p.69-81. https://doi.org/10.1016/j.jconhyd.2019.01.004
- Baran, J.R., Wade, W.H., Weerasooriya, V. and Pope, G.A. (1998) An overview of surfactant enhanced aquifer remediation. In Lagaly, C. (ed.) Horizons 2000 - aspects of colloid and interface science at the turn of the millenium. Progress in Colloid & Polymer Sciencece, Steinkopff, p.74-84.
-
Batot G., Fleury, M. and Nabzarm L. (2017) Reducing
$CO_2$ flow using foams. Energy Procedia. v.114, p.4129-4139. https://doi.org/10.1016/j.egypro.2017.03.1553 - Belhaij, A. and Al-Mahdy, O. (2015) Foamability and foam stability of several surfactants solutions: the role of screening and flooding. J. Petrol Environ. Biotechnol., v.6, p.6-15.
-
Bentham, M. and Kirby, G. (2005)
$CO_2$ storage in saline aquifers. Oil Gas Sci. Technol., v.60, p.559-567. https://doi.org/10.2516/ogst:2005038 -
Chen, Y., Elhag, A.S., Cui, L., Worthen, A.J., Reddy, P.P., Noguera, J.A., Ou, A.M., Ma, K., Puerto, M., Hirasaki, G.J., Nguyen, Q.P., Biswal, S.L and Johnston, K.P. (2015)
$CO_2$ -in-water foam at elevated temperature and salinity stabilized with a nonionic surfactant with a high degree of ethoxylation. Ind. Eng. Chem. Res., v.54, p.4252-4263. https://doi.org/10.1021/ie503674m - Civan, F. (2000) Reservoir formation damage: fundamentals, modeling, assessment and migration, Gulf Publishing Company, Houston, Texas.
-
Clark, J.A. and Santiso, E.E. (2018) Carbon sequestation through
$CO_2$ foam-enhanced oil recovery:a green chemistry perspective. Engineeing, v.4, p.336-342. -
Godec, M., Koperna, G. and Gale, J. (2014)
$CO_2$ -ECBM: a review of its status and global potential. Energy Procedia, v.63, p.5858-5869. https://doi.org/10.1016/j.egypro.2014.11.619 -
Guo, F., Aryana, S.A., Wang, Y., McLanghlin, J.F. and Coddingto, K. (2019) Enhancement of storage capacity of
$CO_2$ in megaporous saline aquifurs using nanoparticlestabilized$CO_2$ foam. Int. J. Green. Gas Con., v.87, p.134-141. https://doi.org/10.1016/j.ijggc.2019.05.024 - Hu, X., Yutkin, M.P., Wu, J., Prausnitz, J.M. and Radke, C.J. (2019) Calcium ion bridging of aqueous carboxylates onto silica: implications for low-salinity waterflooding. Energy & Fuels, v.33, p.127-134. https://doi.org/10.1021/acs.energyfuels.8b03366
- IEAGHG (2015) Review of offshore monitoring for CCS projects.
- Jang, H., Lee, W. and Lee, J. (2018) Nanoparticle dispersion with surface-modified silica nanoparticles and its effect on the wettability alteration of carbonate rocks. Colloid. Surface. A, v.554, p.261-271. https://doi.org/10.1016/j.colsurfa.2018.06.045
-
Jeong, G., Huh, D., Ki, S. and Park, Y. (2017) Relative permeability characteristics for
$CO_2$ and brine in insitu core analysis. J. Korean Soc. Miner. Energy Resour. Eng., v.54, p.655-663. https://doi.org/10.12972/ksmer.2017.54.6.655 - Jones, E.H. and Su, C. (2014) Tansport and retention of zinc nanoparticles in porous media: effects of natural organic matter versus natural organic ligands at circumnentral pH. J. Hazard. Mater., v.275, p. 79-88. https://doi.org/10.1016/j.jhazmat.2014.04.058
- Kaminsky, R.D., Wattenbarger, R.C., Lederhos, J.P. and Leonardi, S.A. (2010) Viscous oil recovery using solids-stabilized emulsions. SPE-135284MS. Conference paper presented at the SPE Annual Technical Conference and Exhibition, SPE, Florence, Italy.
- Kim, I.Y. Joachim, E., Choi, H. and Kim, K. (2015) Toxicity of silica nanoparticles depends on size, dose, and cell type. Nanomedicine, v.11, p.1407-1416. https://doi.org/10.1016/j.nano.2015.03.004
- Kim, I., Worthen, A.J., Johnston, K.P., DiCarlo, D.A. and Huh, C. (2016) Size-dependent properties of silica nanoparticles for Pickering stabilization of emulsions and foams. J. Nanopart. Res., v.18, p.1-12. https://doi.org/10.1007/s11051-015-3308-7
-
Kwon (2018) Demonstration-scale offshore
$CO_2$ storage project in the Pohang basin, Korea. J. Eng. Geol., v.28, p.133-160. -
Lee, Y.S., Park, Y.C., Kwon, S.I. and Sung, W.M. (2008) The feasility study for
$CO_2$ sequestration into deep saline aquifer at Gorae-v structure in Korea. J. Korean Soc. Miner. Energy Resour. Eng., v.45, p.381-393. -
Liu, N. (2015) Nanopartilce-stabilized
$CO_2$ foam for$CO_2$ EOR application. DOE project report (DE-FE-0005979), U.S. Department of Energy, 116p. - Metin, C.O., Lake, L.W., Miranda, C.R. and Nguyen, Q.P. (2010) Stability of aqueous silica nanoparticle dispersions under subsurface conditions. J. Nanopart. Res., v.13, p.839-850. https://doi.org/10.1007/s11051-010-0085-1
- Nath, F. and Xiao, C. (2017) Charactering foam-based frac fluid using rheological model to investigate the fracture propagation and proppant transport in Eagle ford shale formation. SPE 187527MS. Conference paper presented at the SPE Eastern Regional Meeting Oil, Lexington, Kentucky, October 4-6.
-
Nguyen, P., Fadaeim H. and Sinton, D. (2014) Pore-scale assessment of nanoparticle-stabilized
$CO_2$ foam for enhanced oil recovery. Energy & Fuels, v.28, p.6221-6227. https://doi.org/10.1021/ef5011995 - Otterstedt J.E. and Brandreth, D.A. (1998) Smoall particles technology, Plenum Press, New York and London, 500p.
-
Park, J., Lee, M. and Wang, S. (2013) Study on the geochemical weathering process of sandstones and mubstones in Pohang basin at
$CO_2$ storage condition, Econ. Environ. Geol., v.46, p.221-234. https://doi.org/10.9719/EEG.2013.46.3.221 -
Park, Y.C., Kim, S. Lee, J.H. and Shinn, Y.J. (2019) Effect of reducing irreducible water saturation in a neer-well region on
$CO_2$ injectivity and storage capacity. Int. J. Green. Gas Con., v.86, p.134-145. https://doi.org/10.1016/j.ijggc.2019.04.014 -
Patil, P.D, Knight, T., Katiyar, A. and Vanderwal, P., Scherlin, J., Rozowski, P., Ibrahim, M., Sridhar, G.B., Nguyen, Q.P. (2018)
$CO_2$ foam field pilot test in sandstone reservoir: complete analysis of foam pilot response. SPE 190312MS. Conference paper presented at the SPE Improved Oil Recovery, Tulsa, Oklahoma, April 14-18. -
Perera, M.S.A., Gamage, R.P., Rathnaweera, T.D., Ranathunga, A.S., Koay, A. and Choi, X. (2016) A review of
$CO_2$ -enhanced oil recovery with a simulated sensitivity analysis. Energies, v.9, p.481-502. https://doi.org/10.3390/en9070481 - Risal, A.R., Mana, M.A., Yekeen, N., Azli, N.B., Samin, A.M. and Tan, X.K., (2019) Experimental investigation of enhancement of carbon dioxide foam stability, pore plugging, and oil recovery in the presence of silica nanoparticle. Pet. Sci., v.16, p.344-356. https://doi.org/10.1007/s12182-018-0280-8
- San J., Wang, S., Yu, J., Liu, N. and Lee, R. (2017) Nanoparticle-stabilized carbon dioxide foam used in enhanced oil recovery : effect of different ions and temperatures. SPE Journal, v.22, p.1416-1423. https://doi.org/10.2118/179628-PA
-
Shinn, Y.J., Yoo, D.G., Hwang, S., Park, Y.C. and Huh, D.G. (2012) A preliminary screening of
$CO_2$ geological storage in Ulleung basin. Korea. J. Korean Soc. Miner. Energy Resour. Eng., v.49, p.47-58. - Singh, R. and Mohanty, K.K. (2017) Nanoparticle-stabilized foams for high-temperature, high-salinity oil reservoirs. SPE-187165MS. Conference paper presented at the SPE Annual Technical Conference and Exhibition, SPE, San Antonio, Texas, October 9-11.
-
Sweatman, R., Crookshank, S. and Edman, S. (2011) Outlook and technologied for offshore
$CO_2$ EOR/CCS projects. OTC 21984. Conference paper presented at the Offshore Technology Conference, Houston, Texas, May 2-5. - Vann A., Murrill B.J. and Tiemann, M. (2014) Hydraulic fracturing: selected legal issues. CRS Report.
- Vitoonkijvanich, S., Alsofi, A.M. and Blunt, M.J. (2015) Design of foam-assisted carbon dioxide storage in a North Sea aquifer using streamline-based simulation, Int. J. Greenh. Gas Contol., v.33, p.113-121. https://doi.org/10.1016/j.ijggc.2014.11.022
-
Wang, S., Kim, J. and Lee, M. (2016) Measurement of the sc
$CO_2$ storage ratio for the$CO_2$ reservoir rocks in Korea. Energy Procedia, v.97, p.342-347. https://doi.org/10.1016/j.egypro.2016.10.015 -
Xiao, C., Balasubramanian, S.N. and Clapp, L.W. (2017) Rheology of viscous
$CO_2$ foams stbilized by nanoparticles under high pressure. Ind. Eng. Chem. Res., v.56, p.8340-8348. https://doi.org/10.1021/acs.iecr.7b01404 -
Yu, J., An, C., Mo, D., Liu, N. and Lee, R. (2012) Foam mobility control for nanoparticle-stabilized
$CO_2$ foam. SPE-129925MS. Conference paper presented at the SPE Improved Oil Recovery Coference, SPE, Tulsa, Oklahoma, April 24-28. -
Zhang, C., Li, Z., Sun, Z., Wang, P., Wang, S. and Liu, W. (2016)
$CO_2$ foam properties and the stabilizing mechanism of sodium bis(2-ethylhexyl)-sulfosuccinate and hydrophobic nanoparticle mixtures, Soft Mater, v.12, p.946-956. https://doi.org/10.1039/C5SM01408E