纸基聚苯胺/酶生物过滤器的研制

Nimet YILDIRIM TİRGİL, Necdet Bugra Ali̇ustaoglu
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引用次数: 0

摘要

酚类化合物被用于许多工业领域。由于苯酚化合物的高毒性和稳定性,在其生产和使用过程中,即使浓度很低,也对人类和动物具有致癌性。因此,去除苯酚污染物既是必要的,也是有益的。由苯酚引起的水污染是全球最严重的问题之一,威胁着人类和环境。越来越多的工业和人类活动导致排放到水资源中的废水增加。这些酚类化学物质是有害的,尽管使用了不同的方法,但寻找新的材料和有效的方法来去除水中的这些污染物是非常重要的。本研究旨在通过在滤纸上形成聚苯胺结构,将酪氨酸酶糊从水中纯化的酚转化为更无害的状态,以确保苯酚的保留。在此过程中,以FeCl3溶液为反应器材料,用FeCl3溶液在盐酸中将苯胺转化为聚苯胺。在进行这些过程时,其目的是通过使用组成实验的不同浓度的组分来制备最有效的生物过滤器。通过计算儿茶酚的%效率,测定过滤前后的吸光度值。结果表明,当苯胺浓度为0.15 M,酪氨酸酶浓度为10 KU,壳聚糖浓度为1%时,生物滤池活性最高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Paper-based PANI/Enzyme Biofilter Development for Phenol Removal
Phenol compounds are used in many industrial areas. Due to their high toxicity and stability, phenol compounds are carcinogenic to humans and animals even at low concentrations during their production and use. For this reason, the removal of phenol contaminants is both necessary and beneficial. Water pollution caused by phenols is one of the most serious problems globally, threatening both people and the environment. Increasing industrial and human activities have led to an increase in wastewater discharge into water resources. These phenolic chemicals are harmful, and although there are different methods used, it is very important to find new materials and effective methods to remove these pollutants from water. This study aimed to convert the phenols purified from water using tyrosinase paste to a less harmful state by making an enzymatic biofilter for phenol removal, thanks to the polyaniline structure we formed on the filter paper, to ensure phenol retention. While this process took place, FeCl3 solution was used as the reactor material, and aniline was turned into polyaniline with FeCl3 solution in HCl. While these processes are being carried out, it is aimed to prepare the most efficient biofilter by using the components that make up the experiment at different concentrations. By calculating the % efficiency of the catechols, absorbance values were measured before and after filtration. It was revealed that the highest percentage of biofilter activity was formed using 0.15 M aniline, 10 KU tyrosinase enzyme, and 1% chitosan concentrations.
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