Removal of crystal violet from aqueous solutions using an aerobic granular sludge system

Romanian Journal of Ecology & Environmental Chemistry Pub Date : 2021-06-25 DOI:10.21698/rjeec.2021.107

C. Bumbac, E. Manea, O. Tiron

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Abstract

The paper presents a set of comparative tests to evaluate the inhibitory effect of crystal violet on the respiration rate of microorganisms in conventional activated sludge and aerobic granular sludge. The tests were performed in similar conditions with the only variable of the type of sludge tested. The results emphasized that the aerobic granular sludge is less susceptible to the toxicity induced by crystal violet. The concentration of crystal violet that inhibits by 50% (CE50) the respiration rate of sludge microorganisms was determined to be, for the specific test conditions, 22.39 mg/L for the conventional activated sludge and 33.88 mg/L for the aerobic granular sludge. The paper also assesses the biodegradability potential of crystal violet from aqueous solution, in the presence of sodium acetate as co-substrate in a lab-scale sequential biological reactor with aerobic granular sludge. The experiments showed that most of the crystal violet is being initially absorbed in the matrix of the granules during the first minutes and subsequently is being removed with efficiencies above 95% within a treatment cycle of 8 hours.

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用好氧颗粒污泥系统从水溶液中去除结晶紫

通过一组对比试验，评价了结晶紫对常规活性污泥和好氧颗粒污泥中微生物呼吸速率的抑制作用。试验是在类似的条件下进行的，唯一的变量是所测试的污泥类型。结果表明，好氧颗粒污泥对结晶紫的毒性反应较弱。在特定试验条件下，测定出抑制污泥微生物呼吸速率50% (CE50)的结晶紫浓度为:常规活性污泥浓度为22.39 mg/L，好氧颗粒污泥浓度为33.88 mg/L。本文还评估了结晶紫在醋酸钠作为共底物存在的情况下，在实验室规模的顺序生物反应器中与好氧颗粒污泥的生物降解潜力。实验表明，大部分结晶紫在最初的几分钟内被颗粒的基质吸收，随后在8小时的处理周期内以95%以上的效率被去除。

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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Romanian Journal of Ecology & Environmental Chemistry

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