Mg-Al/Biochar Composite with Stable Structure for Malachite Green Adsorption from Aqueous Solutions

IF 1.3 Q3 ENGINEERING, CHEMICAL

Bulletin of Chemical Reaction Engineering and Catalysis Pub Date : 2021-03-31 DOI:10.9767/BCREC.16.1.10270.149-160

A. Badri, P. M. S. B. Siregar, N. Palapa, R. Mohadi, M. Mardiyanto, A. Lesbani

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引用次数: 13

Abstract

Mg-Al-layered double hydroxide (LDH) was fabricated using a coprecipitation method at pH 10. Thereafter, MgAl-LDH was impregnated with biochar to manufacture a Mg-Al/Biochar composite. The composite was characterized using powder X-ray diffraction (XRD), Fourier-transform infrared (FTIR) spectroscopy, N2 adsorption— desorption, thermogravimetry-differential thermal analysis (TG-DTA), and scanning electron microscopy (SEM) experiments, and was subsequently used for malachite green (MG) adsorption. MG adsorption experiments were performed in a batch system, and the effects of temperature and adsorption kinetic and isotherm parameters on the adsorption process were analyzed. The stability of Mg-Al/Biochar was evaluated using regeneration experiments over three cycles. The peaks at 11.47° (003), 22.86° (002), 34.69° (012), and 61.62° (116), in the XRD profile of Mg-Al/Biochar suggested that Mg-Al/Biochar was successfully fabricated. The surface area of Mg-Al/Biochar was up to five times larger than that of pristine Mg-Al-LDH. The adsorption of MG on Mg-Al/Biochar was dominated by interactions at the surface of the adsorbent and was classified as physical adsorption; moreover the maximum adsorption capacity of Mg-Al/Biochar was 70.922 mg/g. Furthermore, the MG removal of Mg-Al/Biochar during three successive adsorption cycles (i.e. 66.73%, 65.57%, and 65.77% for the first, second, and third adsorption cycle) did not change significantly, which indicated the stable structure of the adsorbent. Copyright © 2021 by Authors, Published by BCREC Group. This is an open access article under the CC BY-SA License (https://creativecommons.org/licenses/by-sa/4.0).

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结构稳定的Mg-Al/生物炭复合材料对孔雀石绿的吸附

采用共沉淀法在pH为10的条件下制备了Mg-Al层状双氢氧化物（LDH）。之后，用生物炭浸渍MgAl-LDH以制备Mg-Al/生物炭复合材料。使用粉末X射线衍射（XRD）、傅立叶变换红外（FTIR）光谱、N2吸附-解吸、热重-差热分析（TG-DTA）和扫描电子显微镜（SEM）实验对复合材料进行了表征，随后用于孔雀石绿（MG）吸附。在间歇系统中进行了MG吸附实验，分析了温度、吸附动力学和等温线参数对吸附过程的影响。使用三个循环的再生实验来评估Mg-Al/生物炭的稳定性。在Mg-Al/Biochar的XRD图谱中，在11.47°（003）、22.86°（002）、34.69°（012）和61.62°（116）处的峰表明成功地制备了Mg-Al/Bio炭。Mg-Al/Biochar的表面积是原始Mg-Al-LDH的五倍。MG在MG-Al/生物炭上的吸附以吸附剂表面的相互作用为主，属于物理吸附；Mg-Al/生物炭的最大吸附量为70.922mg/g。此外，在三个连续的吸附循环中（即第一、第二和第三个吸附循环的66.73%、65.57%和65.77%），MG-Al/Biochar的MG去除率没有显著变化，这表明吸附剂的结构稳定。版权所有©2021作者所有，BCREC集团出版。这是CC BY-SA许可证下的开放访问文章(https://creativecommons.org/licenses/by-sa/4.0)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bulletin of Chemical Reaction Engineering and Catalysis ENGINEERING, CHEMICAL-

CiteScore

3.20

自引率

6.70%

发文量

审稿时长

12 weeks

期刊介绍： Bulletin of Chemical Reaction Engineering & Catalysis, a reputable international journal, provides a forum for publishing the novel technologies related to the catalyst, catalysis, chemical reactor, kinetics, and chemical reaction engineering. Scientific articles dealing with the following topics in chemical reaction engineering, catalysis science and engineering, catalyst preparation method and characterization, novel innovation of chemical reactor, kinetic studies, etc. are particularly welcome. However, articles concerned on general chemical engineering process are not covered and out of scope of this journal