应用几丁质强化渗滤工艺（CEFP）去除合成废水中的钴。

Applying Chitin Enhanced Diafiltration Process (CEFP) in Removing Cobalt from Synthetic Wastewater.

作者信息

Elboughdiri Noureddine, Ghernaout Djamel, Gasmi Aicha, Khan Muhammad Imran, Ghernaout Badia

机构信息

Chemical Engineering Department, College of Engineering, University of Ha'il, P.O. Box 2440, Ha'il 81441, Saudi Arabia.

Chemical Engineering Process Department, National School of Engineers Gabes, University of Gabes, Street Omar Ibn El-Khattab, Gabes 6029, Tunisia.

出版信息

Membranes (Basel). 2022 Nov 27;12(12):1194. doi: 10.3390/membranes12121194.

DOI:10.3390/membranes12121194

PMID:36557101

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9784380/

Abstract

This research aims to study the removal of Cobalt (Co) using chitin. The optimum conditions for removing Co were ascertained through batch experiments. This study involves the determination of chitin metal-binding efficiency by using a polymer enhanced diafiltration setup that utilizes a membrane process (ultrafiltration) to keep the Chitin. The effects of several parameters on sorption like pH, the concentrations of chitin, and Co were examined. The best efficiency was reached if the setup was run at pH < 6.3 (i.e., chitin pKa). At acidic conditions and by employing 6 g/L of chitin, Co level (20 mg/L) was decreased at 95%. To further investigate the kinetics of sorption for each gram of chitin, equilibrium experiments were carried out. For 1−100 mM Co, the performed rheological measurements show that chitin was observed to be moderately shear thickening at relatively lower levels (4 and 6 g/L); further, it was moderately shear thinning at slightly more important levels (12 and 20 g/L). Some improvement of the raw polymer will be necessary to enhance sorption to a sustainable limit and make this scheme an economically viable process.

摘要

本研究旨在探讨利用甲壳素去除钴（Co）的方法。通过批次实验确定了去除Co的最佳条件。本研究采用聚合物强化渗滤装置（利用膜工艺（超滤）来保留甲壳素）测定甲壳素与金属的结合效率。研究了pH值、甲壳素浓度和Co浓度等几个参数对吸附的影响。如果装置在pH < 6.3（即甲壳素的pKa）条件下运行，可达到最佳效率。在酸性条件下，使用6 g/L的甲壳素，Co含量（20 mg/L）可降低95%。为进一步研究每克甲壳素的吸附动力学，进行了平衡实验。对于1−100 mM的Co，进行的流变学测量表明，在相对较低水平（4和6 g/L）时，甲壳素表现出适度的剪切增稠；此外，在稍高一些的水平（12和20 g/L）时，它表现出适度的剪切变稀。有必要对原始聚合物进行一些改进，以将吸附提高到可持续的限度，并使该方案成为一个经济可行的工艺。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf43/9784380/e9035f07dfdc/membranes-12-01194-g001.jpg

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应用几丁质强化渗滤工艺（CEFP）去除合成废水中的钴。

Applying Chitin Enhanced Diafiltration Process (CEFP) in Removing Cobalt from Synthetic Wastewater.

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