Biosorption of Vanadium (V) and Chromium (VI) using abscised coconut leaves powder: Equilibrium and continuous packed bed column studies

IF 9 Q1 ENVIRONMENTAL SCIENCES
Ankita S. Gawas, Poonam R. Sutar, Jyoti S. Gokhale
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Abstract

The presence of heavy metals such as Vanadium (V) and Chromium (VI) in industrial waste are detrimental and toxic to our agricultural systems. Strategies involving the removal of heavy metals from industrial waste are the need of the hour. A low-cost biosorbent using abscised coconut leaves (ACL) was employed for successful biosorption of toxic heavy metals, namely Vanadium and Chromium from industrial waste in this study. The zeta potential, BET surface area, SEM, EDAX, XRD, FTIR characterization of ACL powder was carried out. Maximum adsorption capacities of 46.95 mg·g−1 for V (V) and 40.33 mg·g−1 for Cr (VI) was observed. Equilibrium studies demonstrated that 98 % Vanadium (V) was removed at pH 2 for a sorbent dosage of 10 g·L−1 and 100 mgLl−1 of initial metal ion concentration, whereas 99 % Chromium (VI) was removed at pH 1 for a sorbent dosage 10 g·L−1 and 100 mg·L−1 of initial metal ion concentration. Zeta potential studies further confirmed the involvement of anionic adsorption mechanism for biosorption of heavy metals. Column studies were further carried out to study effect of bed height, metal ion concentration and flow rate. The Yoon Nelson model was found to be the best fit for the breakthrough curve data. Furthermore, the experimental data was also tested for Bed Depth Service Time model, which is useful for the scale up of the process. Considering the abundance of this biosorbent and simple method of preparation, ACL powder can be considered as a promising cost-effective option for heavy metal removal from water.
利用腐烂椰子叶粉对钒(V)和铬(VI)的生物吸附:平衡和连续填料床柱研究
工业废物中存在的钒(V)和铬(VI)等重金属对我们的农业系统有害且有毒。从工业废物中去除重金属的策略是当务之急。在这项研究中,我们使用了一种低成本的生物吸附剂,即脱脂椰子叶(ACL),成功地对工业废物中的有毒重金属(即钒和铬)进行了生物吸附。对 ACL 粉末进行了 zeta 电位、BET 表面积、扫描电镜、EDAX、XRD 和 FTIR 表征。结果表明,ACL 粉末对 V (V) 和 Cr (VI) 的最大吸附容量分别为 46.95 mg-g-1 和 40.33 mg-g-1。平衡研究表明,当吸附剂用量为 10 g-L-1 和初始金属离子浓度为 100 mgLl-1 时,钒(V)在 pH 值为 2 时的去除率为 98%;而当吸附剂用量为 10 g-L-1 和初始金属离子浓度为 100 mg-L-1 时,铬(VI)在 pH 值为 1 时的去除率为 99%。Zeta 电位研究进一步证实了阴离子吸附机制参与了重金属的生物吸附。还进一步进行了柱研究,以研究床层高度、金属离子浓度和流速的影响。结果发现,Yoon Nelson 模型最适合突破曲线数据。此外,还对实验数据进行了床层深度服务时间模型测试,该模型有助于扩大工艺规模。考虑到这种生物吸附剂的丰富性和简单的制备方法,ACL 粉末可被视为去除水中重金属的一种经济有效的选择。
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CiteScore
15.40
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