Treatment of Chromium in Wastewater by using Loquat Leaves as Biosorbent

Ching-Hua Liao, Jer-Yuan Shiu, Chi-En Hung, Chih-Hung Wu, Ming-Zhong Liu
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Abstract

Heavy metal pollution generating from industries is a serious issue in China as it causes severe environmental pollution and health problems. Chromium is one of the common heavy metal appeared in wastewater of metal plating and processing industries and has to reduce its concentration to permissible levels before discharge by law. This study focused on removing chromium ion present in wastewater by using bioresource material loquat leaves as an adsorbent. The extent of adsorption of chromium ion was studied and found to be dependent on solution contact time with the adsorbent, particle size and dosage of the loquat leaves and chromium concentration. The result showed that the loquat leaves have a 70% efficiency in removing chromium ions. The experimental equilibrium biosorption data were analyzed by two widely used isotherms namely Langmuir, and Freundlich. The Langmuir isotherm model better fits the experimental data than the Freundlich isotherm model by high correlation coefficients R2. The maximum monolayer capacity of loquat leaves was found to be 0.0201 mg/g for Chromium ions.
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枇杷叶作为生物吸附剂处理废水中的铬
工业产生的重金属污染在中国是一个严重的问题,因为它会造成严重的环境污染和健康问题。铬是金属电镀和加工工业废水中常见的重金属之一,必须将其浓度降低到法律允许的水平才能排放。研究了利用生物资源枇杷叶作为吸附剂去除废水中的铬离子。研究了吸附剂对铬离子的吸附程度,发现吸附剂与溶液接触时间、枇杷叶的粒径和用量以及铬浓度对铬离子的吸附程度有一定的影响。结果表明,枇杷叶对铬离子的去除率达70%。采用Langmuir等温线和Freundlich等温线对实验平衡吸附数据进行了分析。Langmuir等温线模型比Freundlich等温线模型具有较高的相关系数R2,能更好地拟合实验数据。枇杷叶片对铬离子的最大单层容量为0.0201 mg/g。
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