Arsenic Adsorption Characteristics of Adsorbent Prepared From Spinacia oleracea (Spinach) Leaves

Scientific World Pub Date : 2021-02-15 DOI:10.3126/SW.V14I14.34987

P. Jha, V. Jha

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引用次数: 2

Abstract

The dry spinach leaves fine powder was modified by activation with conc. H2SO4 and the adsorbent material was then characterized by using FTIR, EDX, optical microscopy, XRD analysis and methylene blue adsorption method. The EDX result showed about 95 % carbon in the adsorbent material. The maximum specific surface area measured was 499 m2/g. The weak and broad XRD diffraction peaks at 2θ angles 20.5 and 42° were characterized as of activated carbon with the appearance of sharp peak of SiO2 at 2θ angle 26.37°. Optical microscopy Image analysis showed the Porous nature of adsorbents. The adsorption of arsenite on the modified spinach leaves powder adsorbent was investigated by varying different experimental parameters such as pH, adsorbent dose, contact time and As (III) ion concentration. The adsorption process was found to be best fitted to Langmuir adsorption isotherm model controlled by pseudo-second–order kinetics with the rate constant value 0.01830 g/(mg·min). The maximum adsorption was observed at pH 6 at room temperature. The maximum adsorption capacity for As (III) on modified spinach leaves powder was found to be 58.480 mg/g. The value of ∆G was -22 kJ/mole which confirmed the adsorption process was favored by physisorption. The slope of the linear plot of Qt vs t0.5 was linear but not passed through the origin, which indicates that, the intraparticle diffusion was not only rate controlling step.

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菠菜叶吸附剂对砷的吸附特性研究

对干菠菜叶细粉进行了活性炭活化改性。利用FTIR、EDX、光学显微镜、XRD分析和亚甲基蓝吸附法对H2SO4和吸附剂材料进行了表征。EDX结果表明，吸附材料中碳含量约为95%。测定的最大比表面积为499 m2/g。在2θ角20.5和42°处的XRD衍射峰为活性炭的衍射峰，在2θ角26.37°处出现了SiO2的尖峰。光学显微镜图像分析显示了吸附剂的多孔性。通过改变pH、吸附剂剂量、接触时间和as (III)离子浓度等实验参数，研究了改性菠菜叶粉吸附剂对亚砷酸盐的吸附性能。吸附过程最符合Langmuir等温吸附模型，速率常数为0.01830 g/(mg·min)，为准二级动力学控制。室温下pH为6时，吸附量最大。改性菠菜叶粉对As (III)的最大吸附量为58.480 mg/g。∆G值为-22 kJ/mol，说明吸附过程有利于物理吸附。Qt vs t0.5线性曲线的斜率呈线性，但没有通过原点，说明颗粒内扩散不仅仅是速率控制步骤。

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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Scientific World

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