利用棕色大型海藻吸附亚甲基蓝和酸性铬黑 T：平衡、动力学、热力学和优化。

Biosorption of methylene blue and eriochrome black T onto the brown macroalgae : equilibrium, kinetics, thermodynamics and optimization.

机构信息

Chemical Engineering Department, Pontifical Catholic University of Minas Gerais, Belo Horizonte, Brazil.

Sanitation and Environmental Engineering Department, School of Engineering, Federal University of Minas Gerais, Belo Horizonte, Brazil.

出版信息

Environ Technol. 2021 Jan;42(2):279-297. doi: 10.1080/09593330.2019.1626914. Epub 2019 Jun 12.

DOI:10.1080/09593330.2019.1626914

PMID:31154956

Abstract

The present study had the objective to investigate the equilibrium, kinetics, thermodynamic viability and system optimization of methylene blue (MB) and eriochrome black T (ET) biosorption onto (). A comprehensive bioadsorbent characterization was carried out. The infrared spectra suggested a physical biosorption mechanism that was later proven by the enthalpy change and the isotherms models. Furthermore, the process was best described by Langmuir and Temkin isotherm models, indicating the monolayer formation and the linear reduction of the heat of biosorption with the coverage degree. presented a maximum biosorption capacity of 698.477 mg·g for MB, and 24.306 mg·g for ET. Regarding kinetics, the pseudo-second-order kinetic model was the best fitted model. In addition, the film diffusion was confirmed as the process limiting step. The model's optimization was achieved in order to maximize the removal efficiency, corresponding to 99.28% for MB and 99.44% for ET.

摘要

本研究旨在研究亚甲基蓝（MB）和铬天青 S（ET）在（）上的平衡、动力学、热力学可行性和系统优化。对综合生物吸附剂进行了表征。红外光谱表明存在物理吸附机制，后来通过焓变和等温线模型得到了证实。此外，过程最符合朗缪尔和坦金等温线模型，表明单层形成和吸附热随覆盖率的线性降低。对于 MB，表现出最大的生物吸附容量为 698.477mg·g，对于 ET，为 24.306mg·g。关于动力学，准二级动力学模型是最拟合的模型。此外，证实了膜扩散是过程的限制步骤。为了最大限度地提高去除效率，对模型进行了优化，对于 MB 对应 99.28%，对于 ET 对应 99.44%。

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利用棕色大型海藻吸附亚甲基蓝和酸性铬黑 T：平衡、动力学、热力学和优化。

Biosorption of methylene blue and eriochrome black T onto the brown macroalgae : equilibrium, kinetics, thermodynamics and optimization.

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