Chromium desalinization using novel chitosan functionalized iron oxide- biochar composites: Analysis, synthesis, characterization and adsorption performance

Anurag Choudhary, Sardar Singh Poonia
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Abstract

In the study, chitosan functionalized iron oxide incorporated with peanut shell biomass was prepared for potential adsorption of chromium (VI) from an aqueous media. The prepared material was characterized by modern spectroscopic methods for confirming the successful embedding. The adsorption experiments were conducted in batch systems. The experimental data showed robust removal of chromium supported by kinetic and equilibrium studies. The sorption data exhibited a strong agreement with the pseudo-second-order kinetics model, further confirming conformity with the Langmuir isotherm model. Adsorption studies were taken to find the effects of pH and time, reusability, ionic strength and presence of coexisting ions. The maximum sorption capacity was achieved as 14.28 mg g-1 at pH 4 and the optimum contact time was 40 minutes. The background electrolytes have much less effect on uptake efficiency and this green adsorbent can be utilized for up to four cycles.  Additionally, a systematic approach was employed to ensure the precision and accuracy of the spectroscopic method. Calibration was linear in the range from 0.5 to 6.0 μg L-1  (R2 > 0.99). The limits of detection (LOD) and quantification (LOQ) were 0.65 μg L-1  and 2.16 μg L-1, respectively. The relative standard deviation (RSD) was 7.62 % (n=7).
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利用新型壳聚糖功能化氧化铁-生物炭复合材料进行铬脱盐:分析、合成、表征和吸附性能
本研究制备了加入花生壳生物质的壳聚糖功能化氧化铁,用于吸附水介质中的铬(VI)。制备的材料采用现代光谱方法进行表征,以确认成功嵌入。吸附实验在批处理系统中进行。实验数据显示,在动力学和平衡研究的支持下,铬的去除率很高。吸附数据与假二阶动力学模型十分吻合,进一步证实了与朗缪尔等温线模型的一致性。通过吸附研究发现了 pH 值和时间、重复利用率、离子强度和共存离子的影响。在 pH 值为 4 时,最大吸附容量为 14.28 毫克/克,最佳接触时间为 40 分钟。背景电解质对吸附效率的影响较小,这种绿色吸附剂最多可使用四次。 此外,还采用了一种系统方法来确保光谱方法的精确度和准确性。校准在 0.5 至 6.0 μg L-1 范围内呈线性关系(R2 > 0.99)。检出限(LOD)和定量限(LOQ)分别为 0.65 μg L-1 和 2.16 μg L-1。相对标准偏差(RSD)为 7.62 %(n=7)。
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