固定床柱低成本吸附剂去除水中活性红120(Rr120)染料的研究

U. Ashadevi, V. Immanuel, T. Usharani
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引用次数: 1

摘要

研究了在293 K条件下,棉壳和印楝树皮对活性红120 (RR120)的间歇吸附和固定床柱吸附。研究了间歇式吸附的动力学和吸附平衡。采用非线性回归方法获得吸附模型的相关参数。用一阶动力学模型更好地描述了反应的动力学过程。Freundlich吸附等温线和Langmuir吸附等温线有效地描述了平衡吸附。Langmuir模型的C1值为34.375,(RR120 by NB), 33.33, (RR120 by CS), mg/g, Langmuir吸附强度Kd值为0.2909,(RRNB), 0.25, (RRCS), Freundlich吸附容量Kf值为2.664 (1/n)=0.38(RR120 NB), 2.691 (1/n)=0.44(RR120 CS)。在固定床柱吸附中,通过评价突破曲线,研究了床层高度、进料流量和进口反应性Red120(RR120)浓度对吸附效果的影响。柱数据由Thomas, Clark和修正的剂量-反应模型拟合。修正后的剂量-响应模型在实验条件下最能拟合突破曲线。试验设计和结果分析成功地采用了箱形设计。采用响应面法考察了pH、温度和染料浓度对染料吸附的综合影响,并对其进行了优化。结果表明,以棉花壳为原料的活性红120(RR120)的最佳pH、温度和染料浓度分别为6.46、32.22℃和12.60℃;以印楝树皮为原料的活性红120(RR120)的最佳pH、温度和染料浓度分别为6.37、30.82℃和11.65℃。结果表明,棉壳和楝树皮可作为吸附活性红(RR120)的吸附剂。
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Fixed bed column study for the removal of reactive red 120(Rr120) dye from aquatic environment by low cost adsorbents
This study described adsorption of Reactive Red120 (RR120) by cotton shell and neem bark in batch and fixed-bed column modes at 293 K. The kinetic and equilibrium of adsorption in batch mode were studied. Nonlinear regressive method was used to obtain relative parameters of adsorption models. The kinetic process was better described by a -first-order kinetic model. The equilibrium adsorption was effectively described by Freundlich and Langmuir adsorption isotherm. The value of C1 from the Langmuir model was 34.375, (RR120 by NB), 33.33, (RR120 by CS), mg/g, Langmuir adsorption intensity Kd had value of 0.2909,(RRNB), 0.25, (RRCS) and the value of Freundlich adsorption capacity Kf is 2.664 (1/n)=0.38(RR120 NB), 2.691 (1/n)=0.44(RR120 CS) . In fixed-bed column adsorption, the effects of bed height, feed flow rate, and inlet Reactive Red120(RR120) concentration were studied by assessing breakthrough curve. The column data were fitted by the Thomas, Clark and modified dose-response models. The modified dose-response model was best to fit the breakthrough curves at experimental conditions. Box behnken design was successfully employed for experimental design and analysis of the results. The combined effect of pH, temperature and Dye concentatration on the dye adsorption was investigated and optimized using response surface methodology. The optimum pH, temperature, and dye concentration were found to be 6.46,32.22°C and 12.60 for Reactive Red120(RR120) by cotton Shell and the optimum pH, temperature, and dye concentration were found to be 6.37, 30.82°C and 11.65 for Reactive Red120(RR120) by neem bark.The results were implied that cotton shell and neem bark may be suitable as an adsorbent material for adsorption of Reactive Red(RR120) from an aqueous solution.
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