Mg-Al/生物炭对甲基橙和甲基红的去除效果

Q4 Environmental Science

Ecological Engineering Environmental Technology Pub Date : 2022-01-01 DOI:10.12912/27197050/142971

A. Badri, N. Juleanti, R. Mohadi, M. Mardiyanto, A. Lesbani

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引用次数: 0

摘要

用生物炭直接浸渍MgAl-LDH制备MgAl-biochar（MgAl/BC），并用于去除甲基橙（MO）和甲基红（MR）。通过XRD、BET、FTIR、TG-DTA和SEM对所制备的材料进行了表征。在11.47、22.86、34.69和61.6处的XRD表征衍射峰的结果表明，前体成功地转化为MgAl-BC。在1010、13813447和1635cm-1的振动下的FT-IR分析表明，复合材料形成良好。BET分析表明，MgAl-BC复合材料的表面积为111.404m2/g，大于前体的表面积，等于23.15m2/g。吸附研究的动力学模型MR和MO均符合PSO，并遵循Langmuir模型，对MR的吸附量为142.857 mg/g，对MO的吸附容量为128.205 mg/g。复合材料的再生研究表明，在五个循环中，复合材料的吸附效率高于原始材料，并表现出良好的稳定性。

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The Efficiency of Mg-Al/Biochar for Methyl Orange and Methyl Red Removal

MgAl-LDH was directly impregnated with biochar to fabricate MgAl-Biochar (MgAl/BC) and applied to remove methyl orange (MO) and methyl red (MR). The XRD, BET, FTIR, TG-DTA and SEM analyses were conducted to characterize the prepared material. The result of XRD characterization diffraction peaks at 11.47, 22.86, 34.69, and 61.6 shows that the precursor was successfully transformed to MgAl-BC. The FT-IR analysis at vibration 1010, 1381,3447 and 1635 cm-1 illustrated that the composite was well formed. The BET analysis showed that the surface area of the MgAl-BC composite was 111.404 m2/g which was larger than that of the precursor, equal to 23.15 m2/g. The kinetic model of the adsorption study both MR and MO were fitted to PSO and followed the Langmuir model with adsorption capacities for MR 142.857 mg/g and MO 128.205 mg/g. The regeneration study of composite indicated higher efficiency than the pristine and show good stability of adsorption process in five cycles.

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