用胶体气阿佛龙和胶体液阿佛龙预分散溶剂萃取稀产物:阿佛龙的制备、稳定性和尺寸

K. Matsushita , A.H. Mollah, D.C. Stuckey, C. del Cerro, A.I. Bailey
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引用次数: 75

摘要

胶体气阿佛龙(CGAs)和胶体液阿佛龙(CLAs)的前期研究表明,它们在预分散溶剂萃取(PDSE)领域具有相当大的潜力。虽然它们的应用领域可能非常广泛,但它们最有希望的用途是生物技术的下游分离,其中产品非常稀释,并且以复杂的混合物出现。由于在该领域的工作很少,本初步研究考察了一系列溶剂(从非极性到轻度极性)以及各种离子和非离子表面活性剂对CLA尺寸、稳定性和相体积比(PVR,分散油相与连续水相的体积比)的影响。此外,还研究了表面活性剂类型、搅拌速度和时间对CGAs形成的影响。结果表明,CLAs可与极性较强的溶剂(如戊醇)配制,其稳定性随非离子表面活性剂HLB(亲水/亲脂平衡)数的增加而增加。CLAs可以在PVRs高达20的情况下配制而不发生聚结,这明显高于微乳,这似乎表明液体aphrons被不止一层表面活性剂稳定。最后,发现CGAs可以配制成半衰期为6 min的泡沫,并且可以有效地将分散的CLAs从散装溶液中分离出来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predispersed solvent extraction of dilute products using colloidal gas aphrons and colloidal liquid aphrons: Aphron preparation, stability and size

Early work on colloidal gas aphrons (CGAs) and Colloidal liquid aphrons (CLAs) has shown that they have considerable potential in the field of predispersed solvent extraction (PDSE). While their area of application is potentially very broad, their most promising use is in downstream separation in biotechnology where products are very dilute and occur in complex mixtures. Since little work has been done in this area, this preliminary study examined the influence of a range or solvents, varying from non-polar to mildly polar, and a variety of ionic and non-ionic surfactants, on CLA size, stability and phase volume ratio (PVR, volume ratio of the dispersed oil phase to the continuous aqueous phase). In addition, the effect of surfactant type, stirring speed and time, on the formation of CGAs was also studied. The results show that CLAs can be formulated with quite polar solvents (e.g. pentanol), and their stability increases as the HLB (hydrophilic/lipophilic balance) number of the non-ionic surfactant increases. CLAs could be formulated with PVRs as high as 20 without coalescence, which is markedly higher than with microemulsions, and seems to indicate that the liquid aphrons are stabilised by more than a surfactant monolayer. Finally, it was found that CGAs could be formulated as a foam with a half-life of 6 min, and that they could be used to separate dispersed CLAs effectively from a bulk solution.

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