在填充床柱中，藻类废生物质和阴离子交换树脂混合物对 Pb(II) 的吸附。

Sorption of Pb(II) onto a mixture of algae waste biomass and anion exchanger resin in a packed-bed column.

机构信息

Al. I. Cuza University of Iasi, Faculty of Geography and Geology, Department of Geology and Geochemistry, Romania.

出版信息

Bioresour Technol. 2013 Feb;129:374-80. doi: 10.1016/j.biortech.2012.10.142. Epub 2012 Nov 7.

DOI:10.1016/j.biortech.2012.10.142

PMID:23262014

Abstract

Sorption of Pb(II) was studied by using a biosorbent mixture of algae waste biomass and Purolite A-100 resin in a packed-bed column. Mixing these two components was done to prevent the clogging of the column and to ensure adequate flow rates. Increasing of solution flow rate and initial Pb(II) concentration make that the breakthrough and saturation points to be attained earlier. The experimental breakthrough curves were modeled using Bohart-Adams, Thomas and Yoon-Nelson models, and the parameters for all these models were calculated. A regeneration efficiency of 98% was achieved using 0.1 mol L(-1) HCl and not significant changes in lead uptake capacity after three biosorption/desorption cycles were noted. The biosorbent mixture was able to remove Pb(II) from synthetic wastewater at pH 5.0 and flow rate of 3.5 mL min(-1), and the obtained effluent has better quality characteristics. The biosorbent mixture it is suitable for a continuous system for large-scale applications.

摘要

采用藻类废料生物质和 Purolite A-100 树脂混合作为生物吸附剂，在填充床柱中研究了 Pb(II)的吸附作用。混合这两种成分是为了防止柱子堵塞并确保足够的流速。增加溶液流速和初始 Pb(II)浓度可使穿透点和饱和点更早达到。使用 Bohart-Adams、Thomas 和 Yoon-Nelson 模型对实验穿透曲线进行建模，并计算了所有模型的参数。使用 0.1 mol L(-1) HCl 可实现 98%的再生效率，并且在三个生物吸附/解吸循环后，铅吸附容量没有明显变化。在 pH 5.0 和 3.5 mL min(-1)的流速下，该生物吸附剂混合物能够从合成废水中去除 Pb(II)，并且获得的出水具有更好的质量特性。该生物吸附剂混合物适用于用于大规模应用的连续系统。

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在填充床柱中，藻类废生物质和阴离子交换树脂混合物对 Pb(II) 的吸附。

Sorption of Pb(II) onto a mixture of algae waste biomass and anion exchanger resin in a packed-bed column.

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