从椰子纤维中分离木质素作为湖泊中Cr(III)的生物吸附剂

Proceedings of the 2017 International Conference on Computational Biology and Bioinformatics Pub Date : 2017-10-18 DOI:10.1145/3155077.3155086

O. Atikah, Laily F. Pelawi, B. V. Wihelmina, Wahyu H. Ibrahim, F. A. Aribah

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引用次数: 0

摘要

重金属造成的环境污染已成为一个世界性的问题。人们开发了多种方法，其中一种是吸附法。木质素可以吸附重金属。通过将椰子纤维溶解在碱性溶剂NaOH中，成功地分离出木质素。接下来，它被沉积在酸性大气中。沉淀物经60℃的烘箱过滤干燥后，置于干燥器中除去木质素中的水分，得到纯木质素。用红外光谱对分离结果进行了表征，并对重金属铬进行了吸附试验。吸附试验在质量变化为0.2的条件下进行;0.3;0.5克，接触时间60;90;而120 min吸附量随质量和接触时间的增加而增加%。木质素对Cr金属离子的渗透性在接触时间为120 min、吸附剂质量为0.5 g时效果最佳，吸附率分别为76.2%和57.87%。采用最佳时间和质量对印度尼西亚湖大学的水生样品进行测试，以确定木质素对样品中金属铬的吸收能力。分离木质素吸附前后的铬离子浓度分别为117.00 ppm和6.89 ppm。印尼湖大学样品中分离木质素对Cr的吸附量为94.11%。

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The Isolation of Lignin from Coconut Fiber as Bioadsorbent of Cr(III) in Lake of University of Indonesia

Environmental pollution caused by heavy metals becomes a world problem. Various methods have been developed, one of which is the method of adsorption. Adsorption of heavy metals can be done using lignin. Lignin has been successfully isolated from coconut fiber by dissolving it in an alkaline solvent, NaOH. Next, it is deposited in an acidic atmosphere. The precipitate is filtered and dried using an oven with a temperature of 60°C and then placed in a desiccator to remove water in lignin to obtain pure lignin. The isolation result was characterized by using FT-IR instrument and an adsorption test was conducted on chromium heavy metal. The adsorption test was performed on a mass variation of 0.2; 0.3; And 0.5 gram and contact time 60; 90; And 120 min and an increase of% adsorption per mass increase and contact time. The lignin permeability for Cr metal ions has the best effectiveness for contact time of 120 min and 0.5 gram of adsorbent mass with adsorption% of 76.2% and 57.87%, respectively. Optimum time and mass are used for testing of aquatic samples at Lake University of Indonesia to determine the capacity of absorption of lignin against Cr metal presents in the sample. The concentration of chromium ion before and after adsorbed by isolated lignin from cocopeat fiber are 117.00 ppm and 6.89 ppm, respectively. The isolated lignin adsorption capacity of Cr in the sample of Lake University of Indonesia is 94.11%.

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Proceedings of the 2017 International Conference on Computational Biology and Bioinformatics

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