Uptake of Methyl Red dye from aqueous solution using activated carbons prepared from Moringa Oleifera shells

Amel Khalfaoui , Esma Mahfouf Bouchareb , Kerroum Derbal , Souheila Boukhaloua , Bouchra Chahbouni , Raouf Bouchareb
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引用次数: 8

Abstract

The present work was successfully designed to prepare effective adsorbents from Moringa oleifera shells (PMOS) and chemically activated by zinc chloride (ZnCl2) and calcined at different temperatures as 200, 300, 400 and 500 °C, for methyl red (MR) dye removal. Thereafter, the prepared materials were characterized using diverse analytical techniques as SEM, FTIR, XRD and BET. The results showed that the activated carbon prepared at 500 °C had a larger specific surface area (610.031 m2/g) compared to its original precursor (only 3.16 m2/g) or even the rest of prepared adsorbents. The maximum MR sorption capacity of the PMOS of 500 °C was the highest as much as 28.67 mg/g at ambient temperature.

The sorption capacity of raw M. oleifera shells and the tests of calcination effect of this material on the improvement of their capacity were studied in batch system by varying operating conditions such as: contact time, dye concentration, adsorbent dose, pH and temperature. The results confirmed that PMOS calcined at 500 °C with 1.0 g/L of dose and in acidic to neutral media at 25 °C, gives the most significant elimination rate (25.46 mg/g). Thermodynamic study shows that the retention of MR is an exothermic physisorption using PMOS calcined at 200 and 300 °C. Unlike materials calcined at 400 and 500 °C, the process was exothermic chemisorption.

In addition, adsorption isotherms and kinetics were studied using experimental data fitting to further understand and describe the dynamic equilibrium, dynamic kinetics, and mechanism of MR adsorption onto the calcined materials. As compared to Freundlich isotherm model, the Langmuir isotherm model provided a better fit with the experimental data for the different calcined PMOS (at 200 °C, 300 °C, 400 °C and 500 °C) exhibiting a maximum monolayer adsorption capacity of 25.45, 27.10, 28.13 and 28.91 mg/g, respectively. The linear pseudo-first-order kinetic model was found to be suitable for describing the adsorptive kinetics of all prepared activated carbons.

辣木壳活性炭吸附甲基红染料的研究
以辣木(Moringa oleifera)壳(PMOS)为原料,经氯化锌(ZnCl2)活化,在200、300、400和500℃的不同温度下煅烧,制备出了去除甲基红(MR)染料的有效吸附剂。随后,利用SEM、FTIR、XRD、BET等多种分析技术对制备的材料进行了表征。结果表明,在500℃下制备的活性炭比表面积(610.031 m2/g)大于其原始前驱体(仅为3.16 m2/g),甚至大于其他制备的吸附剂。室温条件下,PMOS在500℃时的MR吸附量最大,达到28.67 mg/g。通过接触时间、染料浓度、吸附剂用量、pH和温度等不同的操作条件,研究了油棕壳原料的吸附性能,并对其进行了焙烧,以提高其吸附性能。结果表明,PMOS在500°C, 1.0 g/L的剂量下,在25°C的酸性到中性介质中煅烧,去除率最高(25.46 mg/g)。热力学研究表明,在200℃和300℃煅烧的PMOS中,MR的保留是一种放热物理吸附。与400°C和500°C煅烧的材料不同,该过程是放热化学吸附。此外,利用实验数据拟合研究了吸附等温线和动力学,进一步了解和描述了MR吸附在煅烧材料上的动态平衡、动态动力学和机理。与Freundlich等温线模型相比,Langmuir等温线模型能更好地拟合不同焙烧条件下(200℃、300℃、400℃和500℃)PMOS的最大单层吸附量分别为25.45、27.10、28.13和28.91 mg/g。发现线性伪一级动力学模型适合于描述所制备活性炭的吸附动力学。
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