废床层上镍（II）的动态去除：破碎曲线研究与模拟。

Dynamic Removal of Nickel (II) on Waste Bed: Study of the Breakage Curve and Simulation.

机构信息

Process Design, and Biomass Utilization Research Group (IDAB), Chemical Engineering Department, Universidad de Cartagena, Avenida del Consulado St. 30, Cartagena de Indias 130015, Colombia.

Nanomaterials and Computer-Aided Process Engineering Research Group (NIPAC), Chemical Engineering Department, Universidad de Cartagena, Avenida del Consulado St. 30, Cartagena de Indias 130015, Colombia.

出版信息

Int J Environ Res Public Health. 2022 Dec 12;19(24):16668. doi: 10.3390/ijerph192416668.

DOI:10.3390/ijerph192416668

PMID:36554550

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9778749/

Abstract

This research focused on the use of residual fiber from oil palm () for Ni (II) adsorption in a packed bed column. An analysis was conducted on the effect and statistical incidence of changes in temperature, adsorbent particle size, and bed height on the adsorption process. The results showed that particle size and bed height significantly affect the adsorption of Ni (II) ions, reaching adsorption efficiencies between 87.24 and 99.86%. A maximum adsorption capacity of 13.48 mg/g was obtained in the bed with a break time of 180 min. The Ni (II) adsorption in the dynamic system was evaluated by the analysis of the breakage curve with different theoretical models: Yoon-Nelson, dose-response, and Adams-Bohart; the dose-response model was the most appropriate to describe the behavior of the packed bed with an R of 84.56%. The breakthrough curve obtained from Aspen Adsorption appropriately describes the experimental data with an R of 0.999. These results indicate that the evaluated bioadsorbent can be recommended for the elimination of Ni (II) in aqueous solutions in a dynamic system, and the simulation of the process can be a tool for the scalability of the process.

摘要

本研究专注于利用油棕剩余纤维在填充床柱中吸附 Ni(II)。分析了温度、吸附剂粒径和床层高度变化对吸附过程的影响和统计发生率。结果表明，粒径和床层高度对 Ni(II)离子的吸附有显著影响，吸附效率在 87.24%至 99.86%之间。在穿透时间为 180 分钟的床层中，获得了 13.48mg/g 的最大吸附容量。通过分析不同理论模型（Yoon-Nelson、剂量响应和 Adams-Bohart）的破碎曲线，对动力学系统中的 Ni(II)吸附进行了评价；剂量响应模型最适合描述填充床的行为，R 为 84.56%。AspenAdsorption 获得的穿透曲线与实验数据拟合良好，R 为 0.999。这些结果表明，所评估的生物吸附剂可推荐用于动态系统中水溶液中 Ni(II)的去除，并且该过程的模拟可以作为该过程可扩展性的工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a614/9778749/9daaa93c1f91/ijerph-19-16668-g001.jpg

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废床层上镍（II）的动态去除：破碎曲线研究与模拟。

Dynamic Removal of Nickel (II) on Waste Bed: Study of the Breakage Curve and Simulation.

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