Cleanup of oiled shorelines using a dual responsive nanoclay/sodium alginate surface washing agent

Oil spills may affect ecosystems and endanger public health. In this study, we developed a novel and dual responsive nanoclay/sodium alginate (NS) washing fluid, and systematically evaluated its application potential in oiled shoreline cleanup. The characterization results demonstrated that sodium alginate combined with nanoclay via hydrogen bonds , and was inserted into the interlayer spacing of nanoclay. Adding sodium alginate reduced surface and interfacial tensions, while increasing the viscoelasticity of the washing fluid. Batch experiments were conducted to investigate oil removal performance under various conditions. Additionally, the factorial design analysis showed that three single factors (temperature, oil concentration, and salinity), and two interactive effects (temperature/salinity; and oil concentration/HA) displayed significant effects on the oil removal efficiency of the NS washing fluid. Compared to the commercial surfactants, the NS composite exhibited satisfactory removal efficiencies for treating oily sand. Green materials-stabilized Pickering emulsion can potentially be used for oil/water separation. The NS washing agent displayed excellent pH- and Ca 2+ - responsiveness, generating transparent supernatants with low oil concentration and turbidity . Our work opens an interesting avenue for designing economical, high performance, and green washing agents. • A novel nanoclay/sodium alginate (NS) washing agent was developed for oil cleanup. • The performance of the NS washing agent was affected by environmental conditions. • 72.2% of oil on the sand surface was effectively removed by NS washing fluid. • Temperature and oil concentration had main effects in the factorial analysis. • Dual pH and Ca 2+ responsive separation of washing effluent was achieved.