Adsorption of Arsenite from Aqueous Solutions Using Granola Modified Lemon Peel

Q4 Environmental Science Avicenna Journal of Environmental Health Engineering Pub Date : 2017-06-28 DOI:10.5812/AJEHE.11667

M. A. S. Nodoushan, Z. Parvizi, Fatemah Mirzai Nodoushan, M. Ghaneian

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引用次数: 6

Abstract

The arsenite species is a common form of arsenic in nature and ground waters and is categorized as a major public health group. In the present study, the arsenite ions from contaminated solutions were removed by adsorption on the granola modified lemon peel. The arsenite adsorption on lemon peel was investigated by various concentrations of arsenite with 0.2 g/100 mL of adsorbent at a range of pH 3 - 10 and a constant temperature of 25°C for 0 to 240 minutes using batch experiments. Data of the adsorption experiment were analyzed by the pseudo-first and second- order kinetic equations. The Freundlich and Langmuir isotherm models were used to understand the adsorption relationship between the arsenite ions and functional groups on the lemon peel. pH equal to 5.2 was recorded as pHzpc of this adsorbent in aqueous solution. The optimum condition was obtained at 60 minutes, pH value 8, and 2 mg/L of arsenite, with a removal efficiency of 88%. The maximum adsorption capacity of granola lemon peel was 27 mg.g-1 in Langmuir model. Lemon peel adsorbent presented good removal efficiency for arsenite in contaminated aqueous solutions and real water.

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Granola改性柠檬皮吸附水中亚砷酸盐的研究

亚砷酸盐是自然界和地下水中砷的一种常见形式，被归类为一种主要的公共卫生群体。本研究采用格兰诺拉麦片改性柠檬皮吸附法去除污染溶液中的亚砷酸盐离子。采用批量实验的方法，在pH为3 ~ 10、温度为25℃的条件下，以0.2 g/100 mL的吸附剂加入不同浓度的亚砷酸盐，在0 ~ 240 min的时间内吸附柠檬皮上的亚砷酸盐。用拟一、二阶动力学方程对吸附实验数据进行了分析。采用Freundlich和Langmuir等温线模型研究了柠檬皮上亚砷酸盐离子与官能团的吸附关系。将pH = 5.2记为该吸附剂在水溶液中的pHzpc。最佳工艺条件为60 min、pH = 8、亚砷酸盐浓度为2 mg/L，去除率为88%。格兰诺拉麦片柠檬皮的最大吸附量为27 mg。Langmuir模型中的g-1。柠檬皮吸附剂对污染水溶液和真实水中的亚砷酸盐均有较好的去除效果。

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