Competitive biosorption of rare-earth elements on bacterial biomass: equilibrium and kinetic studies

Jordão C.S, G. E.C
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引用次数: 0

Abstract

Previous studies showed that chemical modified Bacillus subtilis biomass possessed the high potential for recovery rare-earth elements, and, in this study, mathematical models were applied to explain the B. subtilis biomass La3+ and Sm3+ ions sorption capacity. The experimental isotherm data were analyzed using Langmuir, Freundlich, Temkin, and DRK equations. Both Langmuir and Freundlich isotherms models that fit the equilibrium data. Temkin model showed that it occurs physisorption. In more dilute solutions, the adsorption preference follows the order La3+ > Sm3+. With the increase in the concentration of rare-earth elements, there is an inversion in the preference for Sm3+ > La3+. The results demonstrate that the optimum model for describing the kinetics of the biosorption of both rare-earth elements is the pseudo-second-order model as well as the viability of recovering lanthanum using bacterial biomass sorbents, a practical technique.
稀土元素在细菌生物量上的竞争性生物吸附:平衡和动力学研究
前人的研究表明,化学修饰的枯草芽孢杆菌生物量具有较高的稀土回收潜力,本研究采用数学模型来解释枯草芽孢杆菌生物量对La3+和Sm3+离子的吸附能力。实验等温线数据采用Langmuir, Freundlich, Temkin和DRK方程进行分析。Langmuir和Freundlich等温线模型都符合平衡数据。Temkin模型显示其发生物理吸附。在较稀的溶液中,吸附偏好顺序为La3+ > Sm3+。随着稀土元素浓度的增加,Sm3+ > La3+的偏好发生反转。结果表明,描述这两种稀土元素的生物吸附动力学的最佳模型是拟二阶模型,以及利用细菌生物量吸附剂回收镧的可行性,这是一种实用的技术。
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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