Remediation of Zn, Pb and Cd in Leachate Using Carbonized Water Hyacinth Stem

Journal of Bioremediation and Biodegradation Pub Date : 2017-06-26 DOI:10.4172/2155-6199.1000402

Tinega Nyamoko Joseph, Yen Zheng, Kim Youngju

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Abstract

In recent years, tropical fresh water lake basins are continuously being infested by Water Hyacinth (Eichhorniae crassipes) weed. This has led to fish decline, impede boat and ferry navigation, and blocked water supply to both rural and urban population. Currently, the use of herbicides to control the weed has led to water pollution, the mechanical and biological method have proven to be expensive and unsustainable. Alternatively, due to its high lignocellulose content, it offers a sustainable solution. In this study, heavy metal adsorption capacity of carbonized water hyacinth stem was investigated. Carbon was produced with yield of about 50%. Preliminary data on adsorption with synthetic wastewater identified pH 5, temperature 30°C, adsorbent dosage 1 g/100 ml and contact time 1 hr as the optimal operating conditions for Pb (1.982 mg/L), Zn (1.284 mg/L) and Cd (1.32 mg/L) removal from leachate. The results revealed that the experimental data fitted well with Langmuir and Freundlich isotherm, and also First order Kinetic model. Maximum removal rate of near 100% was attained with leachate. This was attributed to high surface area 327.9 m2/g, total pore volume 0.06 cc/g and pore size 7.257 A, and main functional group OH 3429.08 cm-1. Desorption with 0.6 M HCl gave a maximum recovery yield of 96%.

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炭化水葫芦茎对渗滤液中锌、铅、镉的修复研究

近年来，热带淡水湖流域不断受到水葫芦(Eichhorniae crassipes)杂草的侵害。这导致了鱼类的减少，阻碍了船只和渡轮的航行，并阻碍了农村和城市人口的供水。目前，使用除草剂控制杂草已导致水污染，机械和生物方法已被证明是昂贵的和不可持续的。另外，由于其高木质纤维素含量，它提供了一个可持续的解决方案。研究了炭化水葫芦茎对重金属的吸附能力。产碳率约为50%。对合成废水的初步吸附实验结果表明，pH为5、温度为30℃、吸附剂用量为1 g/100 ml、接触时间为1 hr，对渗滤液中Pb (1.982 mg/L)、Zn (1.284 mg/L)和Cd (1.32 mg/L)的去除效果最佳。结果表明，实验数据符合Langmuir和Freundlich等温线，也符合一级动力学模型。渗滤液的去除率接近100%。这主要归功于高表面积327.9 m2/g，总孔容0.06 cc/g，孔径7.257 A，主官能团OH 3429.08 cm-1。用0.6 M盐酸解吸，回收率最高达96%。

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Journal of Bioremediation and Biodegradation

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