表面活性剂弹性蛋白膜的制备及其分离机理

Q4 Engineering

Leather and Footwear Journal Pub Date : 2022-09-30 DOI:10.24264/lfj.22.3.7

D. Simion, C. Gaidău, G. Păun

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引用次数: 0

摘要

通过UV-VIS光谱、扫描电子显微镜、动态光散射和分离速率研究了经典表面活性剂棕榈酰甘氨酰甘氨酸和bola两亲性溴化去甲铵对弹性蛋白膜制备的影响以及姜黄从水溶液中分离的机理。通过引入表面活性剂（经典或bola）提高了拉伸强度和疏水性。研究了表面活性剂对姜黄水溶液微孔结构和截留率的影响。生物膜是通过浇铸溶剂蒸发技术生产的。将弹性蛋白粉末溶解在水-乙酸（70:30 v/v）溶液中，加入和不加入增塑剂：甘油和表面活性剂（经典或bola），在60°C下持续搅拌5-7小时，然后将溶液脱气2小时。倒入溶液，然后在45-55°C的烘箱中保持5-8小时。生态生物膜是从一种可生物降解的生物聚合物——弹性蛋白中获得的，可以成功地用于去除废水中的姜黄。

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Preparation of Elastin Membranes Based on Surfactants and Separation Mechanism

The influence of a classical surfactant – palmitoyl-glycylglycine and bola amphiphilic – demecarium bromide upon the elastin membrane preparation and separation mechanism of turmeric from aqueous solutions was studied by: UV-VIS spectroscopy, scanning electron microscopy, dynamic light scattering and separation rates. The tensile strength and hydrophobic property were improved by introducing a surfactant (classic or bola). In this research the influence of surfactants upon the microporous structure and retention of turmeric from aqueous solutions was studied. The biomembranes were produced by a casting-solvent evaporation technique. The elastin powder was dissolved in a water-acetic acid (70:30 v/v) solution with and without plasticizer: glycerol and surfactant (classic or bola), constant continuous stirring for 5-7 hrs. at 60°C, then degassed the solution for 2 hrs. The solution was poured and afterwards maintained in the oven at 45-55°C for 5-8 hrs. Ecological biomembranes are obtained from a biodegradable biopolymer – elastin, and can be used successfully in removing turmeric from wastewaters.

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来源期刊

Leather and Footwear Journal Engineering-Industrial and Manufacturing Engineering

CiteScore

0.90

自引率

0.00%

发文量