Evaluation of refused tea waste activated carbon for color removal: Equilibrium and kinetic studies

S. Wijetunga, Chathurika Dfa Gunasekara
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引用次数: 5

Abstract

New technologies or improvement of the existing technologies are required to enhance the efficiency of removal of pollutants from wastewater. In this study we attempted to produce and test the activated carbon produced from the refused tea waste for the removal of dyes from wastewater. The objectives of this investigation were to produce activated carbon from refused tea waste by chemical activation, evaluate its performance for the removal of color produced from Acid Yellow 36, and the modeling of its dye removal with the kinetic study. The activation was performed in two steps namely carbonization at 375±25C and chemical activation with HCl at 800C under the absence of Oxygen. Adsorption isotherms and kinetic studies were performed with a textile dye, Acid Yellow 36, at different concentrations (20-80 mg/L). The maximum dye removal (~90%) observed at 80 mg/L dye concentration and it reduced at low dye concentrations. Maximum adsorption (71.97 mg/g) was recorded at 96 h at 29±1C. Low pH increased the dye adsorption (pH=2; 78.27 mg/g) while adsorption reduced at high pH levels indicating that the competition occurs in between OHions and AY36 molecules for the adsorption sites in RTAC. The Langmuir isotherm model clearly explained the dye adsorption, favorably, by RTAC. Moreover, kinetic studied performed showed that the pseudo second order kinetic model clearly describes the dye adsorption. Based on the results obtained in this study, it can be concluded that RTAC can be used for the removal of textile dyes.
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茶叶废渣活性炭去色的评价:平衡和动力学研究
为了提高废水中污染物的去除效率,需要采用新技术或改进现有技术。本研究以茶叶废渣为原料制备活性炭,并对活性炭去除废水中的染料进行了试验研究。本研究的目的是利用化学活化法制备茶叶废渣活性炭,评价其对酸性黄36脱色的性能,并通过动力学研究对其脱色过程进行建模。活化过程分为两个步骤,即375±25°C的碳化和800°C的HCl在缺氧条件下的化学活化。对不同浓度(20 ~ 80 mg/L)的纺织染料酸性黄36进行了等温线吸附和动力学研究。当染料浓度为80 mg/L时,染料去除率最高(约90%),较低时,染料去除率降低。在29±1℃下,96 h的最大吸附量为71.97 mg/g。低pH增加了染料吸附(pH=2;78.27 mg/g),而在高pH水平下,吸附减少,这表明OHions和AY36分子之间发生了对RTAC吸附位点的竞争。Langmuir等温线模型很好地解释了RTAC对染料的吸附。此外,动力学研究表明,准二级动力学模型可以很好地描述染料吸附。研究结果表明,RTAC可用于纺织品染料的脱除。
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