The use of algae to remove copper and lead from industrial wastewater

IF 0.4 Q4 ENVIRONMENTAL SCIENCES
K. Cygnarowska
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Abstract

The aim of the research was to evaluate the effectiveness of the removal of Cu and Pb ions by algae. The experiments were carried out in the presence of two algal populations: a pure culture of Raphidocelis subcapitata, and a mixed chlorophyta population. The research involved a model study, experiments in the presence of wastewater from the manufacture of batteries, and the study of process kinetics. The wastewater pH was 4.0, and the initial concentrations of metal ions in the wastewater were 95.4 mg/L for Pb and 48.3 mg/L for Cu, respectively. The maximum sorption capacity of the pure Raphidocelis subcapitata culture was 14.8 mg/g d.m. for Pb, corresponding to the removal of 72% of lead, and 6.1 mg/g d.m. for Cu, corresponding to the removal of 43% of copper from the wastewater. The best ion sorption efficiency in the case of the mixed chlorophyta population was 7.0 mg/g d.m. for Pb, i.e., 61% removal of lead, and 12.8 mg/g d.m. for Cu, i.e., 69% removal of copper ions from the wastewater. The optimum duration of the process was found to be 1 hour, since the majority of biomass samples reached the maximum saturation after that time. On the basis of the obtained results (Lagergren models), it was found that the dominant mechanism of the process was chemisorption.
利用藻类去除工业废水中的铜和铅
本研究的目的是评价藻类对铜和铅离子的去除效果。实验是在两种藻类种群存在的情况下进行的:一种是纯培养的亚capitata Raphidocelis,一种是混合的绿藻种群。这项研究包括模型研究、电池生产废水的实验和过程动力学研究。废水pH为4.0,废水中金属离子的初始浓度Pb为95.4 mg/L, Cu为48.3 mg/L。纯Raphidocelis subcapitata培养物对Pb的最大吸附量为14.8 mg/g d.m.,相当于对铅的去除率72%;对Cu的最大吸附量为6.1 mg/g d.m.,相当于对废水中铜的去除率43%。混合绿藻对铅的最佳吸附效率为7.0 mg/g d.m.,铅去除率为61%;对铜的最佳吸附效率为12.8 mg/g d.m.,铜离子去除率为69%。该过程的最佳持续时间为1小时,因为大多数生物质样品在此时间后达到最大饱和度。在得到的结果(拉格伦模型)的基础上,发现该过程的主要机理是化学吸附。
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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