合成用于废水净化的羧甲基纤维素-丙烯酰胺-蒙脱石复合水凝胶

IF 2.5 4区 工程技术 Q3 CHEMISTRY, ANALYTICAL
Yuxuan Xue, Sai Zhong, Kuanwen Wang, Qianrui Dong, Yue Huang, Rui Zhang, Lei Wang, T. Jiang
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引用次数: 0

摘要

新型水凝胶材料具有三维网络和丰富的孔隙结构,对废水中的亚甲基蓝(MB)和 Cr6+ 离子等污染物具有出色的吸附性能。为了开发一种具有高吸附性能和低成本的环保型水凝胶,研究人员通过链自由基聚合法合成了一种羧甲基纤维素(CMC)与蒙脱石(MMT)的复合水凝胶,使其在废水净化领域具有巨大的应用潜力。通过扫描电镜、傅立叶变换红外光谱和氮孔测定法分析了一系列水凝胶样品,结果表明 MMT 纳米片成功地插层到水凝胶交联网络中。研究并优化了 CMC 与 MMT 的质量比、吸附剂用量、废物初始浓度、pH 值和吸附温度对水凝胶吸附性能的影响。当 MB 初始浓度为 60 mg/L、pH 值为 7、MB 用量为 0.5 g/L、吸附温度为 30 ℃ 时,水凝胶样品对 MB 的吸附去除能力最强,吸附量为 112.9 mg/g。当 Cr6+ 的初始浓度为 10 mg/L、pH 值为 7 时,水凝胶去除 Cr6+ 的最高吸附能力为 1.35 mg/g。吸附剂吸附过程的等温模型、动力学模型、内部颗粒扩散模型和实验数据的热力学拟合结果表明,水凝胶对 MB 的吸附是一个多层物理吸附和化学吸附的自发分段过程。此外,水凝胶对 Cr6+ 离子的吸附也是多层物理吸附的自发分段过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of Carboxymethylcellulose–Acrylamide–Montmorillonite Composite Hydrogels for Wastewater Purification
The three-dimensional network and ample pore structure of novel hydrogel materials enable outstanding adsorption performance for pollutants such as methylene blue (MB) and Cr6+ ions in wastewater. In order to develop an environmentally friendly hydrogel with high adsorption performance and low cost, a type of carboxymethyl cellulose (CMC) composite hydrogel was synthesised with montmorillonite (MMT) via chain radical polymerization, which gives it great potential for application in the field of wastewater purification. A series of hydrogel samples were characterised through SEM, FTIR and nitrogen porosimetry analysis, indicating the successful intercalation of MMT nanosheets into the hydrogel crosslinking network. The mass ratio of CMC to MMT, the amounts of adsorbent, the initial concentration of wastes, pH, and the adsorption temperature were investigated and optimised for hydrogel adsorption performance. When the initial concentration of MB is 60 mg/L, pH is 7, the dosage of MB is 0.5 g/L, and the adsorption temperature is 30 °C, the hydrogel sample the highest adsorption capability for MB removal, with an adsorption amount of 112.9 mg/g. When the initial concentration of Cr6+ is 10 mg/L with a pH of 7, the highest adsorption capacity of the hydrogel for Cr6+ removal is 1.35 mg/g. The fitting results of the isothermal models, the kinetic models, internal particle diffusion models and the thermodynamics of the experimental data of the adsorbate adsorption process show that the adsorption of MB by hydrogel is a spontaneous segmented process of multi-layer physical and chemical adsorption. Additionally, the adsorption of Cr6+ ions by hydrogel is a spontaneous segmented process of multi-layer physical adsorption.
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来源期刊
Separations
Separations Chemistry-Analytical Chemistry
CiteScore
3.00
自引率
15.40%
发文量
342
审稿时长
12 weeks
期刊介绍: Separations (formerly Chromatography, ISSN 2227-9075, CODEN: CHROBV) provides an advanced forum for separation and purification science and technology in all areas of chemical, biological and physical science. It publishes reviews, regular research papers and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. There are, in addition, unique features of this journal: Manuscripts regarding research proposals and research ideas will be particularly welcomed. Electronic files and software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. Manuscripts concerning summaries and surveys on research cooperation and projects (that are funded by national governments) to give information for a broad field of users. The scope of the journal includes but is not limited to: Theory and methodology (theory of separation methods, sample preparation, instrumental and column developments, new separation methodologies, etc.) Equipment and techniques, novel hyphenated analytical solutions (significantly extended by their combination with spectroscopic methods and in particular, mass spectrometry) Novel analysis approaches and applications to solve analytical challenges which utilize chromatographic separations as a key step in the overall solution Computational modelling of separations for the purpose of fundamental understanding and/or chromatographic optimization
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