Complexation of Surfactant/β-Cyclodextrin to Inhibit Surfactant Adsorption onto Sand, Kaolin, and Shale for Applications in Enhanced Oil Recovery Processes. Part I: Static Adsorption Analysis

Surfactant adsorption onto solid surfaces is a major issue during surfactant flooding in enhanced oil recovery applications; it decreases the effectiveness of the chemical injection making the process uneconomical. Therefore, it was hypothesized that the adsorption of surfactant onto solid surfaces could be inhibited using a surfactant delivery system based on the complexation between the hydrophobic tail of anionic surfactants and beta-cyclodextrin (beta-CD). Proton nuclear magnetic resonance spectroscopy was used to confirm the complexation of sodium dodecyl sulfate (SDS)/beta-CD. Surface tension analysis was used to establish the stoichiometry of the complexation and the binding constant (K (a)). Static adsorption testing was applied to determine the adsorption of surfactant onto different solids (sandstone, shale, and kaolinite). The release of the surfactant from the beta-CD cavity was qualitatively evaluated through bottle testing. The formation of the inclusion complex SDS/beta-CD with a 1:1 stoichiometry was confirmed. The K (a) of the complexations increases as salinity and hardness concentration increases. The encapsulation of the surfactant into the beta-CD cavity decreases the adsorption of surfactant onto solid surfaces up to 79 %. Qualitative observations indicate that in the presence of solid adsorbents partially saturated with crude oil, the beta-CD cavity releases surfactant molecules, which migrate towards the oil-water interface.