Nano-silica from kaolinitic clay used as adsorbent for anionic and cationic dyes removal: linear and non-linear regression isotherms and kinetics studies

Tchanang Gustave, Djangang Chantale Njiomou, Abi Charles Fon, Moukouri Danie Laure Mbella, Djabo Guillonnel Trésor Nyadjou, Kepdieu Jean Marie, Blanchart Philippe
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引用次数: 7

Abstract

The increasing occurrence of wastewaters associated with industrial development has begotten a permanent search for new and more efficient techniques for the removal of hazardous substances such as heavy metals and dyes. The use of natural and available resources to develop improved and sustainable commodities for this purpose remains crucial and is among promising emerging green technologies for water treatment. It offers the gradual shifting of hazardous industrial chemicals precursors to the abundant non-metallic mineral resources that receive an added value. This work investigated the uptake capacity by the adsorption process of methylene blue (MB) and azocarmine G (AG) onto nano-silica synthesized from kaolinite clay. The effects of contact time (0-30 min), the adsorbent dosage (5-100 mg), the initial pH of the solution (1-11 for MB and 1-7 for AG), and the initial dye concentration (5-50 mg/L) were studied. The selected conditions to carry out kinetic and isotherm adsorption experiments were: 15 mins, 20 mg, 11 for MB, 1.01 for AG, and 50 mg/L. Four adsorption isotherms and three kinetic models were used to model the adsorption data thanks to linear and non-linear regression methods. From the obtained results, the Freundlich isotherm model fitted well the adsorption phenomenon while the pseudo-second-order kinetic model described well the adsorption mechanism. Furthermore, the free energy of adsorption was similar for the two absorbents, 0.71 kJ, pointing physisorption as the dominant adsorption mechanism. The optimum MB and AG uptake were respectively 13.8 and 36.1 mg/g. Conclusively, the nano-silica represents a potentially viable and powerful adsorbent whose use could lead to a plausible improvement in environmental preservation.
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高岭土中的纳米二氧化硅用作阴离子和阳离子染料去除吸附剂:线性和非线性回归等温线和动力学研究
与工业发展有关的废水日益增多,促使人们不断寻求新的和更有效的技术来清除诸如重金属和染料等有害物质。利用自然资源和现有资源为这一目的开发改良和可持续的商品仍然至关重要,并且是有希望的新兴绿色水处理技术之一。它提供了危险的工业化学品前体逐渐转移到丰富的非金属矿物资源,获得了附加价值。研究了亚甲基蓝(MB)和偶氮胺G (AG)在高岭石粘土合成的纳米二氧化硅上的吸附性能。考察了接触时间(0 ~ 30 min)、吸附剂用量(5 ~ 100 mg)、溶液初始pH (MB为1 ~ 11、AG为1 ~ 7)、染料初始浓度(5 ~ 50 mg/L)对吸附效果的影响。进行动力学和等温吸附实验的条件为:15 min, 20 mg, MB 11, AG 1.01, 50 mg/L。采用线性和非线性回归方法,采用4条吸附等温线和3种动力学模型对吸附数据进行建模。所得结果表明,Freundlich等温线模型较好地拟合了吸附现象,拟二级动力学模型较好地描述了吸附机理。两种吸附剂的吸附自由能相近,均为0.71 kJ,表明物理吸附是主要的吸附机制。MB和AG的最佳吸收量分别为13.8和36.1 mg/g。最后,纳米二氧化硅代表了一种潜在的可行和强大的吸附剂,其使用可能导致环境保护的合理改善。
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