Comparison of specific adsorption capacity of different forms of fungal pellets for removal of Acid Brilliant Red B from aqueous solution and mechanisms exploration

Baoping Xin; Yang Zhang; Changhao Liu; Shi Chen; Borong Wu

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Comparison of specific adsorption capacity of different forms of fungal pellets for removal of Acid Brilliant Red B from aqueous solution and mechanisms exploration

机译：不同形式的真菌小球从水溶液中去除酸性亮红B的比吸附能力比较及机理探索

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The specific adsorption capacities (SAC) of the growing, resting and dead pellets for target dye were compared; the mechanisms responsible for difference of SAC between different kinds of pellets were elucidated. The results showed that the SAC of three kinds of biomass decreased in the order of the growing ＞ the resting ＞ the dead, and the ratio of SAC of the growing biomass to that of the dead one increased from 1.32 at 100mg/L of initial dye concentration to 2.68 at 400mg/L. The growing pellets accumulated the loaded dye inside the cells through energy consumption, both the thickened cell wall and the squeezed cytoplasm offered the greatest space for dye bioaccumulation, accounting for the highest SAC. In contrast, monolayer adsorption of dye onto the surface of pellets was the mechanism for the dead biomass, so the lowest SAC occurred due to the least adsorption space and sites.

机译：比较了生长，静止和死球对目标染料的比吸附能力（SAC）。阐明了造成不同颗粒之间SAC差异的机理。结果表明，三种生物量的SAC值从高到低依次为>静息>死角，而初始染料100mg / L时，生物量与死角的SAC比从1.32增加。在400mg / L浓度下达到2.68。不断增长的颗粒通过能量消耗将负载的染料积累在细胞内，加厚的细胞壁和被挤压的细胞质都为染料的生物积累提供了最大的空间，是最高的SAC。相反，染料在颗粒表面上的单层吸附是死生物质的机制，因此最低的SAC发生是因为吸附空间和位置最少。

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来源
《Process Biochemistry 》 |2012年第7期| 1197-1201| 共5页
作者
Baoping Xin; Yang Zhang; Changhao Liu; Shi Chen; Borong Wu;
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作者单位

Beijing Key laboratory of Environmental Science and Engineering, School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, PR China;

Beijing Key laboratory of Environmental Science and Engineering, School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, PR China;

Beijing Key laboratory of Environmental Science and Engineering, School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, PR China;

Beijing Key laboratory of Environmental Science and Engineering, School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, PR China;

Beijing Key laboratory of Environmental Science and Engineering, School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing 100081, PR China;

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正文语种 eng
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关键词
Absorption; Biosorption; Filamentous fungi; Wastewater treatment; Specific adsorption capacity; Dye removal;

机译：吸收生物吸附丝状真菌;废水处理;比吸附能力;去除染料;

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Comparison of specific adsorption capacity of different forms of fungal pellets for removal of Acid Brilliant Red B from aqueous solution and mechanisms exploration

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