Terminalia arjuna Bark Biosorbent for Efficient Lead (II) Removal from Synthetic Wastewater

Journal of Scientific Research and Reports Pub Date : 2024-06-02 DOI:10.9734/jsrr/2024/v30i62093

Sachin Kumari, Sushila Singh, V. Sangwan, Indu Rani

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Abstract

Aim: Heavy metal such as lead ions is toxic and its entry in water environment is a threat to human as well as aquatic life. Plant based adsorbents have attracted a great attention as ecofriendly and low-cost adsorbent. The goal of this study was to prepare adsorbent from Terminalia arjuna bark using chemicals named hydrochloride followed by sodium hydroxide for lead ions removal. Study Design: The research is experimental in nature. Place and Duration of Study: This research was conducted in Department of Chemistry and Biochemistry at CCSHAU, Hisar in year 2022-23. Methodology: The functionality, surface morphology, and elemental analysis of that biosorbent was analysed by FTIR, FE-SEM with EDX respectively. The bark samples were treated with 400 mL of 0.1 M hydrochloride and 400 mL of 0.01 M sodium hydroxide, respectively, before being used as an adsorbent. Batch studies were done for biosorption of heavy metal ions. The maximum biosorption capacity of lead ions were optimized by varying the pH (2-8), lead ions concentration (10- 100 mg/L), biosorbent dose (0.01-0.04 g/50mL), and contact time (10–60 minutes). Results: The maximum removal efficiency of about 71% was obtained at 6 pH having 0.03g of biosorbent at 27⁰C for 60 minutes. The Freundlich adsorption isotherms and pseudo first order kinetics models were the most suitable for the biosorption of lead ions and the maximum adsorption capacity was 125 mgg-1 at optimized time 60 minutes. Conclusion: The finding indicated that Terminalia arjuna bark based biosorbents would potentially be an inexpensive and environment friendly for lead ions removal from water environment.

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从合成废水中高效去除铅 (II) 的树皮生物吸附剂

目的：铅离子等重金属具有毒性，进入水环境会对人类和水生生物造成威胁。植物性吸附剂作为一种生态环保、成本低廉的吸附剂备受关注。本研究的目的是利用盐酸和氢氧化钠等化学物质，制备出植物树皮吸附剂，用于去除铅离子。研究设计：研究为实验性质。研究地点和时间：本研究于 2022-23 年在希萨尔 CCSHAU 化学与生物化学系进行。研究方法：分别用傅立叶变换红外光谱、FE-SEM 和 EDX 分析了该生物吸附剂的功能、表面形态和元素分析。树皮样品在用作吸附剂之前分别用 400 mL 0.1 M 盐酸和 400 mL 0.01 M 氢氧化钠进行处理。对重金属离子的生物吸附进行了批量研究。通过改变 pH 值（2-8）、铅离子浓度（10- 100 mg/L）、生物吸附剂剂量（0.01-0.04 g/50mL）和接触时间（10-60 分钟），优化了铅离子的最大生物吸附容量。结果显示在 pH 值为 6、生物吸附剂用量为 0.03 克、温度为 27⁰C、接触时间为 60 分钟的条件下，最大去除率约为 71%。Freundlich 吸附等温线和伪一阶动力学模型最适合铅离子的生物吸附，在最佳吸附时间 60 分钟时，最大吸附容量为 125 mgg-1。结论研究结果表明，基于乔木树皮的生物吸附剂可能是去除水环境中铅离子的一种廉价且环保的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Scientific Research and Reports

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