A zwitterionic surfactant concentrates sulfolane in floating foams, to purify water

Colloids and Surfaces C: Environmental Aspects Pub Date : 2024-11-22 DOI:10.1016/j.colsuc.2024.100051

Erica Pensini , Caitlyn Hsiung , Saeed Mirzaee Ghazani , Alejandro Marangoni

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Abstract

Sulfolane is a worldwide groundwater miscible pollutant, used for carbon capture and sour gas treatment. It is heavier than water and can sink when spilled in low salinity aquifers, posing remedial challenges. There are no strategies to prevent sulfolane plunging, other than pumping large groundwater volumes. We show that the zwitterionic surfactant cocamidopropyl betaine (CAPB) interacts with sulfolane, producing a stable floating foam, in which sulfolane is concentrated by >140 %. The foam forms by bubbling air or mild mixing. CAPB is surface active in either water or in aqueous sulfolane mixtures, and its films stabilize the air-water interface even upon significant deformation. CAPB-sulfolane interactions disrupt the water network, thereby decreasing the heat and onset of water evaporation from the foam. While CAPB successfully concentrated sulfolane, Tween 20 did not. Cationic cetyltrimethylammonium bromide binds sulfolane, but extraction of sulfolane was not possible due to foam instability.

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一种齐聚物表面活性剂可将磺烷浓缩在浮泡中，用于净化水

磺丙烷是一种世界性的地下水混溶污染物，用于碳捕获和酸性气体处理。它比水重，在低盐度含水层中泄漏时会下沉，给补救工作带来挑战。除了抽取大量地下水之外，目前还没有其他策略可以防止磺烷下沉。我们的研究表明，齐聚物表面活性剂椰油酰胺丙基甜菜碱（CAPB）可与磺丙烷相互作用，产生稳定的浮动泡沫，其中磺丙烷的浓度为 140%。通过鼓泡空气或轻度搅拌即可形成泡沫。CAPB 在水或水性磺丙烷混合物中都具有表面活性，其薄膜即使在发生重大变形时也能稳定空气-水界面。CAPB 与砜烷的相互作用会破坏水网络，从而降低泡沫的热量和水蒸发的开始时间。CAPB 成功地浓缩了砜烷，而吐温 20 却没有。阳离子十六烷基三甲基溴化铵可与砜烷结合，但由于泡沫不稳定，无法萃取砜烷。

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Colloids and Surfaces C: Environmental Aspects

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