阴离子粘土去除铅的分析研究:表征、吸附动力学、等温线、热力学、机理和吸附

Salah Bahah
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引用次数: 0

摘要

采用共沉淀法合成了三摩尔比(Mg/Al, Ni/Al)的阴离子型Mg -Al和Ni-Al粘土。采用粉末XRD、傅里叶红外光谱(FTIR)和扫描电镜(SEM)对样品进行了表征。在共沉淀样品的粉末XRD图谱中未检测到其他结晶相。红外光谱得到了表征这两种阴离子粘土的所有官能团。扫描电镜显示颗粒和聚集体的存在。颗粒或聚集体呈板状,由可接受大小的颗粒支撑。两种粘土对铅的最佳吸附pH均为6.5左右。最佳吸附剂质量为:Mg3AlCO3为0.2 g, Ni3AlCO3为0.25 g。Mg3AlCO3对铅的吸附量最大,qm=73.42 mg g-1。两种黏土的吸附量均随温度升高而增加。两种黏土均在5 min后达到Pb2+吸附平衡时间。拟二阶模型和Langmuir模型是描述吸附动力学和等温线实验数据最合适的模型。检出限为0.272 mg L-1。线性范围为1 ~ 5 mg L-1(R2 0.9997)。
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Analytical study on lead elimination by anionic clays: Characterization, adsorption kinetics, isotherm, thermodynamic, mechanism and adsorption
The co-precipitation method synthesized the synthetic anionicMg–Al and Ni-Al clays with three molar ratios (Mg/Al, Ni/Al). The samples were characterized by powder XRD, Fourier transform infrared spectroscopy (FTIR), and scanning electron microscopy (SEM). No other crystalline phases were detected in the powder XRD patterns of the co-precipitated samples. The infrared spectra obtained all the functional groups that characterize these two types of anionic clays. SEM micrographs indicate the presence of particles and aggregates. The particles, or aggregates, are in the form of plates, supported by particles of acceptable sizes. The optimal pH for maximum lead adsorption is about 6.5 for both clays. The optimal adsorbent masses for the maximum percentages of lead removal are 0.2 g for Mg3AlCO3 and 0.25 g for Ni3AlCO3. The Mg3AlCO3 has a maximum adsorption capacity of lead, where qm=73.42 mg g-1. The adsorbed amount increases with increasing temperature for both types of clays studied. The equilibrium time of Pb2+ adsorption is reached after 5 min for both clays. The most appropriate models to describe the experimental data of adsorption kinetics and isotherms are pseudo-second-order and Langmuir. The detection limit (LOD) was 0.272 mg L-1. The linearity range was 1 to 5 mg L-1(R2 0.9997).
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