B. R. Poudel, R. Aryal, K. N. Ghimire, H. Paudyal, M. R. Pokhrel
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引用次数: 0
摘要
这项工作研究了用浸渍石榴皮的二氧化钛(PP@TiO2)填充的固定床柱对亚砷酸盐的动态生物吸附,这对于确定吸附剂在实际应用中的有效性和经济性非常重要。为了给 As (III) 离子创造一个活性吸附位点,石榴皮粉末(PP)被浸渍在 TiO2 中。在不同的操作参数下,对使用 PP@TiO2 填料的色谱柱吸附 As (III) 离子的性能进行了评估。突破曲线模型显示,床层深度服务时间(BDST)和托马斯模型与实验数据吻合良好。使用托马斯模型得出的 PP@TiO2 的最大柱容量与实验值相似,且确定系数较高。因此,从这些结果中,我们可以预见 PP@TiO2 在固定床系统中处理含有微量 As (III) 离子的废水时,将是一个强有力的竞争者。
Potential removal of arsenite from contaminated water using a fixed bed column packed with TiO2-impregnated pomegranate peel powder
A dynamic biosorption of arsenite in a fixed bed column packed with TiO2 impregnated pomegranate peel (PP@TiO2) has been investigated in this work, which is important to identify the effectiveness and affordability of an adsorbent in actual practice. To create an active adsorption site for As (III) ions, pomegranate peel powder (PP) was impregnated with TiO2. Under various operating parameters, the performance of a column packed with PP@TiO2 for adsorbing As (III) ions was evaluated. Breakthrough curve modelling showed that the bed depth service time (BDST) and Thomas models agreed well with the experimental data. The maximum column capacity of PP@TiO2 using the Thomas model was found to have resembled experimental value with high values of coefficient of determination. Therefore from these results, we may anticipate that PP@TiO2 can be a strong contender for the treatment of wastewater that has traces amount of the As (III) ion in a fixed bed system.
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