Combination of non-ionic and cationic surfactants in generating stable CO2 foam for enhanced oil recovery and carbon storage

Authors

  • Rishabh Tripathi Deysarkar Centre of Excellence in Petroleum Engineering, IIT Kharagpur, Kharagpur 721302, India
  • Zachary Paul Alcorn Department of Physics and Technology, University of Bergen, Bergen 7800, Norway
  • Arne Graue Department of Physics and Technology, University of Bergen, Bergen 7800, Norway
  • Sandeep D. Kulkarni* Deysarkar Centre of Excellence in Petroleum Engineering, IIT Kharagpur, Kharagpur 721302, India(Email:sandeep.kulkarni@iitkgp.ac.in)

Keywords:

Carbon dioxide geo-storage, CO2 foam flooding, enhance oil recovery, carbon capture utilization and storage

Abstract

Surfactant-stabilized CO2 foam is a promising technology to reduce CO2 mobility in geo logic CO2 storage and CO2 enhanced oil recovery processes. In this study, various combi nations of a non-ionic surfactant, Alkyl polyglycoside, along with cationic surfactants were ingeniously examined to enhance carbon storage and facilitate oil recovery through CO2 based foam flooding. Specifically, for the first time, the investigation focused on the impact of altering the alkyl chain length and counter-ion type of the cationic surfactants. The surfactant combinations were first screened based on surfactant characterization, surface and interfacial tension studies and bulk foam experiments. The interfacial tension studies showed that, in combination with Alkyl polyglycosides, the C16 (cetyltrimethylammonium bromide and cetyltrimethylammonium chloride) alkyl chain length cationic surfactants exhibited less interfacial tension values than the C12 (dodecyltrimethylammonium bromide and dodecyltrimethylammonium chloride) alkyl chain length cationic surfactant. The bulk foam experiments established that Alkyl polyglycosides/C16 combination showed higher foamability and foam stability than Alkyl polyglycosides/C12 combination. The bulk foam investigation showed that the optimized concentration of Alkyl polyglycosides/cationic surfactant was 0.3/0.15 wt%. The surfactant combinations screened from these studies were evaluated for EOR coreflooding experiments at 1250 psi and 60 °C. The incremental oil recovery obtained for baseline CO2 and Alkyl polyglycosides/cetyltrimethylammonium bromide foam flooding was 18.5% and 32.7%, respectively. The estimated carbon storage potential for baseline CO2 g and Alkyl polyglycosides/cetyltrimethylammonium bromide foam flooding was 11.9% and 23.7%, respectively. The combination of Alkyl polygly cosides cetyltrimethylammonium bromide surfactant was demonstrated as an effective solution for increased oil recovery and carbon storage.

Document Type: Original article

Cited as: Tripathi, R., Alcorn, Z. P., Graue, A., Kulkarni, S. D. Combination of non-ionic and cationic surfactants in generating stable CO2 foam for enhanced oil recovery and carbon storage. Advances in Geo-Energy Research, 2024, 13(1): 42-55. https://doi.org/10.46690/ager.2024.07.06

References

Adebayo, A. R. Sequential storage and in-situ tracking of gas in geological formations by a systematic and cyclic foam injection-A useful application for mitigating leakage risk during gas injection. Journal of Natural Gas Science and Engineering, 2019, 62: 1-12.

Alcorn, Z. P., Fredriksen, S. B., Sharma, M., et al. An integrated CO2 foam EOR pilot program with combined CCUS in an onshore Texas heterogeneous carbonate field. Paper SPE 190204 Presented at the SPE Improved Oil Recovery Conference, Tulsa, Oklahoma, 14-18 April, 2018.

Bello, A., Ivanova, A., Cheremisin, A. Enhancing N2 and CO2 foam stability by surfactants and nanoparticles at high temperature and various salinities. Journal of Petroleum Science and Engineering, 2022, 215: 110720.

Chai, J., Cui, X., Zhang, X., et al. Adsorption equilibrium and dynamic surface tension of alkyl polyglucosides and their mixed surfactant systems with CTAB and SDS in the surface of aqueous solutions. Journal of Molecular Liquids, 2018, 264: 442-450.

Chen, S., Han, M., AlSofi, A., et al. Non-ionic surfactant formulation with ultra-low interfacial tension at high-temperature and high-salinity conditions. Paper SPE 200273 Presented at the SPE Conference at Oman Petroleum & Energy Show, Muscat, Oman, 21-23 March, 2022.

Daerr, A., Mogne, A. Pendent_drop: An imagej plugin to measure the surface tension from an image of a pendent drop. Journal of Open Research Software, 2016, 4(1): e3.

de Azevedo, B. R. S., Alvarenga, B. G., Percebom, A. M., et al. Interplay of interfacial and rheological properties on drainage reduction in CO2 foam stabilised by surfactant/nanoparticle mixtures in brine. Colloids and Interfaces, 2023, 7(1): 2.

Ding, L., Jouenne, S., Gharbi, O., et al. An experimental investigation of the foam enhanced oil recovery process for a dual porosity and heterogeneous carbonate reservoir under strongly oil-wet condition. Fuel, 2022, 313: 122684.

Gao, M., Lei, F., Liu, Q., et al. The effect of alkyl chain length in quaternary ammonium cationic surfactants on their foaming properties. Russian Journal of Physical Chemistry A, 2019, 93: 2735-2743.

Hou, J., Lin, S., Du, J., et al. Study of the adsorption behavior of surfactants on carbonate surface by experiment and molecular dynamics simulation. Frontiers in Chemistry, 2022, 10: 847986.

Jian, G., Alcorn, Z., Zhang, L., et al. Evaluation of a nonionic surfactant foam for CO2 mobility control in a heterogeneous carbonate reservoir. SPE Journal, 2020, 25(6): 3481-3493.

Kian, K., Scurto, A. M. Viscosity of compressed CO2 saturated n-alkanes: CO2/n-hexane, CO2/n-decane, and CO2/n-tetradecane. The Journal of Supercritical Fluids, 2018, 133: 411-420.

Kutschmann, E. M., Findenegg, G. H., Nickel, D., et al. Interfacial tension of alkylglucosides in different APG/oil/water systems. Colloid and Polymer Science, 1995, 273: 565-571.

Li, F., Yu, X., Fang, H., et al. Influence of polymerization degree on the dynamic interfacial properties and foaming ability of ammonium polyphosphate (APP) surfactant mixtures. Journal of Molecular Liquids, 2021, 335: 116175.

Ma, J., Li, L., Wang, H., et al. Carbon capture and storage: History and the road ahead. Engineering, 2022, 14: 33-43.

Ma, L., Zhu, M., Liu, T. Effects of chain length of surfactants and their adsorption on nanoparticles on stability of CO2-in-water emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 644: 128877.

Massarweh, O., Abushaikha, A. S. Application of surfactants in enhancing oil recovery from tight carbonates: Physicochemical properties and core flooding experiments. Geoenergy Science and Engineering, 2023, 221: 211400.

Mohamed, A., Trickett, K., Chin, S. Y., et al. Universal surfactant for water, oils, and CO2. Langmuir, 2010, 26(17): 13861-13866.

Onyebuchi, V. E., Kolios, A., Hanak, D. P., et al. A systematic review of key challenges of CO2 transport via pipelines. Renewable and Sustainable Energy Reviews, 2018, 81: 2563-2583.

Pang, J., Mohanty, K. Increase of CO2 storage in high-salinity carbonate reservoirs by foam injection. Paper SPE 214951 Presented at the SPE Annual Technical Conference and Exhibition, San Antonio, Texas, USA, 16-18 October, 2023.

Para, G., Jarek, E., Warszynski, P. The Hofmeister series effect in adsorption of cationic surfactants-theoretical description and experimental results. Advances in Colloid and Interface Science, 2006, 122(1-3): 39-55.

Patist, A., Oh, S. G., Leung, R., et al. Kinetics of micellization: Its significance to technological processes. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2001, 176(1): 3-16.

Petkova, B., Tcholakova, S., Chenkova, M., et al. Foamability of aqueous solutions: Role of surfactant type and concentration. Advances in Colloid and Interface Science, 2020, 276: 102084.

Rafati, R., Technology, U., Hamidi, H. Application of sustainable foaming agents to control the mobility of carbon dioxide in enhanced oil recovery. Paper SPE 163287 Presented at the SPE Kuwait International Petroleum Conference and Exhibition, Kuwait City, Kuwait, 10-12 December, 2012.

Razavi, S. M. H., Shahmardan, M. M., Nazari, M., et al. Experimental study of the effects of surfactant material and hydrocarbon agent on foam stability with the approach of enhanced oil recovery. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 585: 124047.

Rezaee, M., Hosseini-Nasab, S. M., Fahimpour, J., et al. New insight on improving foam stability and foam flooding using fly-ash in the presence of crude oil. Journal of Petroleum Science and Engineering, 2022, 214: 110534.

Sæle, A., Graue, A., Alcorn, Z. P. Unsteady-state CO2 foam injection for increasing enhanced oil recovery and carbon storage potential. Advances in Geo-Energy Research, 2022, 6(6): 472-481.

Sanders, A. W., Jones, R. M., Linroth, M., et al. Implementation of a CO2 foam pilot study in the SACROC field: Performance evaluation. Paper SPE 160016 Presented at the SPE Annual Technical Conference and Exhibition, San Antonio, Texas, USA, 8-10 October, 2012.

Santa, M., Alvarez-J¨ urgenson, G., Busch, S., et al. Sustainable surfactants in enhanced oil recovery. Paper SPE 145039 Presented at the SPE Enhanced Oil Recovery Conference, Kuala Lumpur, Malaysia, 19-20 July, 2011.

Thakore, V., Ren, F., Voytek, J., et al. High temperature stability of aqueous foams for potential application in enhanced geothermal system (EGS). Paper Presented at the 45th Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, 10-12 February, 2021.

Wang, J., Xue, G., Tian, B., et al. Interaction between surfactants and SiO2 nanoparticles in multiphase foam and its plugging ability. Energy & Fuels, 2017a, 31(1): 408-417.

Wang, Y., Zhang, Y., Liu, Y., et al. The stability study of CO2 foams at high pressure and high temperature. Journal of Petroleum Science and Engineering, 2017b, 154: 234-243.

Wei, P., Pu, W., Sun, L., et al. Alkyl Polyglucosides stabilized foam for gas controlling in high-temperature and high-salinity environments. Journal of Industrial and Engineer ing Chemistry, 2018, 60: 143-150.

Wei, P., Zhai, K., Guo, K., et al. Highly viscous liquid foam for oil-displacement: Surface & phase behavior enhancement. Journal of Petroleum Science and Engineering, 2022, 212: 110274.

Wei, Y., Kang, J., Liu, L., et al. A proposed global layout of carbon capture and storage in line with a 2 °C climate target. Nature Climate Change, 2021, 11(2): 112-118.

Wen, Y., Yu, T., Xu, L., et al. Molecular dynamics and experimental study of the effect of pressure on CO2 foam stability and its effect on the sequestration capacity of CO2 in saline aquifer. Chemical Engineering Science, 2024a, 284: 119518.

Wen, Y., Zhong, Y., Zeng, P., et al. Interfacial chemical mechanisms of brine salinity affecting the CO2 foam stability and its effect on the sequestration capacity of CO2 in deep saline aquifer. Journal of Molecular Liquids, 2024b, 399: 124349.

Wu, X., Xiao, P., Liu, B., et al. Experimental investigation on using CO2/H2O emulsion with high water cut in enhanced oil recovery. Petroleum Science, 2024, 21(2): 974-986.

Wu, X., Zhang, Y., Zhang, K., et al. An experimental inves tigation of liquid CO2-in-water emulsions for improving oil recovery. Fuel, 2021, 288: 119734.

Xiao, B., Ye, Z., Wang, J., et al. Law and mechanism study on salt resistance of nonionic surfactant (alkyl glycoside) foam. Energies, 2022, 15(20): 7684.

Yekeen, N., Padmanabhan, E., Idris, A. K. Synergistic effects of nanoparticles and surfactants on n-decane-water interfacial tension and bulk foam stability at high temperature. Journal of Petroleum Science and Engineering, 2019, 179: 814-830.

Yu, Y., Hanamertani, A. S., Ahmed, S., et al. Supercritical CO2-foam screening and performance evaluation for CO2 storage improvement in sandstone and carbonate formations. Paper SPE 208141 Presented at the Abu Dhabi International Petroleum Exhibition & Conference, Abu Dhabi, UAE, 15-18 November, 2021.

Zhang, C., Geng, T., Jiang, Y., et al. Impact of NaCl concentration on equilibrium and dynamic surface adsorption of cationic surfactants in aqueous solution. Journal of Molecular Liquids, 2017, 238: 423-429.

Zhang, C., Xue, Y., Huang, D., et al. Design and Fabrication of anionic/cationic surfactant foams stabilized by lignincellulose nanofibrils for enhanced oil recovery. Energy & Fuels, 2020, 34(12): 16493-16501.

Downloads

Download data is not yet available.

Downloads

Published

2024-06-10

Issue

Section

Articles