The Effect of Flowrate on Dye Removal of Jumputan Wastewater in a Fixed-Bed Column by Using Adsorption Model: Experimental and Breakthrough Curves Analysis

L. Cundari, B. D. Afrah, A. Jannah, Patrick Rudy Meizakh, Muhammad Alik Aziz, Wulan Ayum Larasati
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引用次数: 1

Abstract

One of the traditional arts in Indonesia is Jumputan fabric which produced by using tie and dye technic. The Jumputan wastewater contains organic compounds which can decrease the oxygen content in water. An economic and applicable process to handle the Jumputan wastewater is adsorption. The research was conducted to find out the effect of flowrate to the adsorption performance of the dye onto activated carbon in a continuous fixed-bed column based on the breakthrough curve parameter. The activated carbon made from betel nuts (Cyrtostachys lakka) with size particle of 60 mesh. The column dimension was 2 inches of inside diameter and 60 cm of height column. The bed height was 10 cm. The feed pumped from the top of column with variation of flowrate of 10, 20 and 30 ml/min. The absorbance of the dye was analyzed by using UV-Vis spectrophotometer. The adsorption column models were analyzed using Thomas, Yoon-Nelson, and Adam-Bohart. The result of this research was the dye removal efficiency decreased with the increase in flowrate, which was 61.4%; 56.9%; and 47.6% for 10, 20, and 30 ml/min respectively. Feed flowrate showed a negative effect on the saturation time, the higher the flowrate, the faster it reaches the saturation point of the adsorbent. The breakpoints were 180, 260, and 420 minutes at 30, 20, 10 ml/min flowrate. The model data indicated that Thomas and Yoon-Nelson are fitted well with the experimental results. The models show the largest regression and the smallest error with the value of each 0.99 and 0.0035 at flowrate of 10 ml/min.
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流量对固定床柱上Jumputan废水脱色的影响:实验及突破曲线分析
印度尼西亚的传统艺术之一是使用扎染技术制作的Jumputan织物。Jumputan废水中含有可以降低水中氧含量的有机化合物。吸附法是一种经济适用的处理Jumputan废水的工艺。以突破曲线参数为基础,研究了连续固定床柱上流量对活性炭吸附染料性能的影响。以槟榔(Cyrtostachys lakka)为原料,粒径为60目。柱的尺寸为内径2英寸,柱高60厘米。床高10厘米。进料从塔顶泵出,流量为10、20、30 ml/min。用紫外-可见分光光度计对染料的吸光度进行了分析。采用Thomas、Yoon-Nelson和Adam-Bohart分析吸附柱模型。研究结果表明:染料去除率随流量的增加而降低,为61.4%;56.9%;10、20、30 ml/min分别为47.6%。进料流量对饱和时间呈负向影响,进料流量越高,达到吸附剂饱和点越快。断点分别为180,260和420分钟,流速分别为30,20,10 ml/min。模型数据表明,Thomas和Yoon-Nelson与实验结果拟合较好。在流量为10 ml/min时,模型的回归值最大,误差最小,分别为0.99和0.0035。
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审稿时长
2 weeks
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