Sorption and desorption of 17α-ethinylestradiol onto sediments affected by rhamnolipidic biosurfactants

摘要

Graphical abstractThis study estimated and compared the influence of mono- and di-rhamnolipids on HOC distribution within different sediment-water sorption and desorption systems.Display OmittedHighlights•We compared EE2 distribution derived by mono- and di-rhamnolipids.•Dirhamnolipids facilitated EE2 mobilization within sorption and desorption processes.•EE2 partitioning to sorbed monorhamnlipids was influenced by sorbate age.•A conceptual model was used to estimate rhamnolipid-HOC-sediment interactions.•Rhamnolipid type is an important factor influencing organic distribution.AbstractMany studies have addressed the desorption and mobilization performances of sorbed contaminants affected by different rhamnolipidic biosurfactants. Study results have been mixed and complicated. Rhamnolipids are always microbial produced with variable homologues. In this study, two representative rhamnolipidic fractions (i.e., RL-F1 and RL-F2, which are mono- and di-rhamnolipids, respectively) were investigated and compared to determine their influence on 17α-ethynylestradiol (EE2) distribution within sediment-water sorption and desorption systems. In general, the coexistence of RL-F1 and EE2 enhanced EE2 sorption in a wider monorhamnolipidic dosage range when freshly treated sorbate was used. The sorbed EE2 concentration decreased as the RL-F1 dosage increased in the aged sorbate desorption systems. However, RL-F2 facilitated EE2 mobilization in both sorption and desorption processes. Experimental data were estimated using a conceptual model that considered the sorbed rhamnolipids and aqueous micelles for organic partitioning. The model results indicated that the rhamnolipid type is an important factor influencing organic distribution, in addition to sorbate aging process and sediment characteristics. The use of a rhamnolipidic mixture containing both mono- and di-rhamnosyl components may not achieve the desired effect when the biosurfactant-enhanced mobilization or immobilization approach is selected. These results are significant for selecting and applying rhamnolipids to remediate contaminants.