A novel strengthened dispersed particle gel for enhanced oil recovery application

•A novel strengthened dispersed particle gel (SDPG) was prepared and applied to foam system.•Salt tolerance, thermal tolerance, plugging capacity and enhanced oil recovery capacity of this new three-phase foam system were investigated.•Enhanced oil recovery mechanism of this new three-phase foam sys...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2016, 41(0), , pp.175-182
Main Authors: Dai, Caili, Chen, Wenxia, You, Qing, Wang, Hong, Yang, Zhe, He, Long, Jiao, Baolei, Wu, Yining
Format: Article
Language:English
Subjects:
Enhanced oil recovery
High-salinity stability
High-temperature stability
Silica nanoparticles
Three-phase foam
화학공학
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Summary:•A novel strengthened dispersed particle gel (SDPG) was prepared and applied to foam system.•Salt tolerance, thermal tolerance, plugging capacity and enhanced oil recovery capacity of this new three-phase foam system were investigated.•Enhanced oil recovery mechanism of this new three-phase foam system was analyzed. A novel strengthened dispersed particle gel (SDPG) was proposed and investigated to improve high-temperature and high-salinity stability of foam, which uses silica nanoparticles as reinforcing material to support the inner framework of particle gel. In this paper, SDPG was successfully prepared and applied to a new three-phase foam system (STPFS). Indoor experiments were conducted to evaluate the salt tolerance, thermal tolerance, plugging capacity and enhanced oil recovery capacity of the STPFS. It proved that silica nanoparticles could improve the high-temperature and high-salinity stability of the gel particles effectively. Consequently, the new three-phase foam system (STPFS) exhibited superior salt and temperature resistance, with a salinity of 80,000mg/L of Na+, 15,000mg/L of Ca2+ and Mg2+ and temperature tolerance of 110°C. In addition, core-flooding test indicated the STPFS possessed better plugging capacity with a resistance factor of 310 and better enhanced oil recovery capacity with the oil recovery increment of 26.79% under high temperature (110°C) and high salt environment (212,633.8mg/L).
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2016.07.024