Cu(II) Removal from Aqueous Medium Using Blast Furnace Slag (BFS) as an Effective Adsorbent

T. Chouchane, Atmane Boukari, Ouahida Khireddine, S. Chibani, Sabiha Chouchane
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Abstract

The copper adsorption by blast furnace slag (BFS) in an aqueous medium was considered based on the influ-encing parameters, namely the agitation speed, pH, temperature, the particle size of the solid, and the initial concentration. Physicochemical studies have shown that BFS is consisted mainly from SiO2, CaO, Al2O3, and MgO with a specific surface area of 238 m2/g. Under the optimum parameters, the maximum adsorption amount at equilibrium (140 min) corresponds to 45.16 mg/g. Exploration of adsorption isotherms revealed that the Langmuir model is more consistent with the experimental data. The values of the Freundlich (n) and Langmuir (RL) parameters indicate that the adsorption is favorable. On the other hand, the values of Temkin (bt) and Redlich-Peterson (g) parameters show that adsorption is physical. Pseudo-second order of the adsorp-tion process was confirmed using a kinetic study. Moreover, the diffusional study specified that the transfer of copper from the solution to BFS is successively controlled by external and intraparticle diffusion. The thermodynamic parameters showed that the adsorption of Cu(II) on BFS was feasible, spontaneous, exother-mic, and less entropic. The desorption phenomenon has revealed that BFS can be reused for three consecutive cycles.
利用高炉渣(BFS)作为有效吸附剂去除水介质中的Cu(II)
考虑了搅拌速度、pH、温度、固体粒径、初始浓度等因素对高炉渣在水介质中吸附铜的影响。理化研究表明,BFS主要由SiO2、CaO、Al2O3和MgO组成,比表面积为238 m2/g。在最佳参数下,平衡态(140 min)最大吸附量为45.16 mg/g。对吸附等温线的研究表明,Langmuir模型与实验数据更为吻合。Freundlich (n)和Langmuir (RL)参数值表明吸附效果良好。另一方面,Temkin (bt)和Redlich-Peterson (g)参数值表明吸附是物理吸附。通过动力学研究证实了吸附过程的准二级。此外,扩散研究表明,铜从溶液到BFS的转移依次受到外扩散和颗粒内扩散的控制。热力学参数表明,BFS吸附Cu(II)是可行的、自发的、放热的、低熵的。脱附现象表明,BFS可以连续重复使用三个周期。
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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