壳聚糖和交联壳聚糖-膨润土吸附Cu (II)离子的动力学及平衡

H. Hargono, A. Sarah, Feninda Nevrita, B. Jos
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引用次数: 0

摘要

以壳聚糖和壳聚糖-膨润土(CTS-BTN)为吸附剂,在间歇条件下对水溶液中的Cu (II)颗粒进行了吸附。考察了不同试验参数:起始pH、吸附时间对吸附效果的影响。通过平衡研究确定壳聚糖和CTS-BTN对Cu (II)颗粒的极限。Langmuir和Freundlich等温线模型被用于检验作为线性化条件的试验信息。人们发现等温线的信息都是用朗缪尔等温线来描述的。壳聚糖和CTS-BTN的吸附量分别为125 mg/g和142.86 mg/g。采用拟一阶和拟二阶模型对吸附速率常数进行了研究。伪二阶模型与试验信息拟合最佳(CTS的R2= 0.991, CTS- btn的R2= 0.995),并给出恒定速率k2, CTS的ads= 8.85 × 10-5 g/mg min, CTS- btn的ads= 3.72 × 10-4 g/mg min。建议该模型可用于设计和应用。关键词:吸附;铜(II)离子;壳聚糖;交联;等温线;动力学
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinetics and equilibriums adsorption of Cu (II) ion by chitosan and cross-linked chitosan-bentonite
The sorption of Cu (II) particle from aqueous solution onto chitosan and cross-connected chitosan-bentonite (CTS-BTN) as adsorbent were conducted in batch conditions. The impact of different test parameters: starting pH, sorption time was assessed. Equilibrium studies have been completed to decide the limit of chitosan and CTS-BTN for Cu (II) particle. The Langmuir and Freundlich isotherm models were used in the examination of the trial information as linearized conditions. It was discovered that the isotherm information were all around portrayed by the Langmuir isotherm. Chitosan and CTS-BTN showed an adsorption capacity of 125 mg/g and 142.86 mg/g, respectively. The constant of adsorption rate was investigation utilizing a pseudo first order and a pseudo second order model. The pseudo second order model brought about the best fit with test information (R2= 0,991 for CTS and R2= 0,995 for CTS-BTN), additionally giving a constant rate k2, ads= 8.85 x 10-5 g/mg min for CTS and 3.72 x 10-4 g/mg min for CTS-BTN. Recommending that this model could be used in design and applications.Keywords:  adsorption; Cu(II) ion; chitosan; cross-linked; isotherm; kinetics
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