Bioremoval Performances of Hexavalent Chromium by Suspended and Immobilised Microbial Biomass onto Pozzolana: Studying the Self-purification Mechanism

Pub Date : 2022-05-18 DOI:10.15255/kui.2021.054
Larbi Mahmoudi, A. Djafer, Samia Benhammadi, H. Aguedal, A. Iddou, D. Achour
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Abstract

Hexavalent chromium is one of the hazardous metals that can be found in industrial effluents such as wood treatment units, mining, leather tanning, pigment, steel and electroplating industry . The present work aimed to evaluate the self-purification capacity of the microbial flora taken from the domestic wastewater effluent of Chlef City, with the perspective of designing a microbial bed in the secondary sewage treatment to prevent an industrial Cr(VI) contamination. Under various operating conditions, the bioremoval performance of Cr(VI) was evaluated by using suspended biomass and immobilised biomass (fixed onto pozzolana grains). The results showed that the immobilised biomass was more efficient and more resistant to Cr(VI) toxicity than the suspended biomass. Indeed, the Cr(VI) was totally eliminated within 96 h for an initial concentration of 50 mg l −1 by the immobilised biomass, while this rate was obtained after 120 h for the suspended biomass. The kinetic data fit well to the pseudo-first order kinetic model. The intraparticle diffusion kinetic model suggested that the diffusion process of Cr(VI) was greatly influenced by the initial concentration. The microbial flora present in domestic wastewater is a promising biosorbent that is able to treat effluent containing Cr(VI).
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火山灰上悬浮和固定微生物生物量对六价铬的生物去除性能:自净机理研究
六价铬是工业废水中的有害金属之一,如木材处理装置、采矿、皮革制革、颜料、钢铁和电镀工业。本工作旨在评估从Chlef市生活污水中提取的微生物菌群的自净能力,目的是设计一种用于污水二次处理的微生物床,以防止工业Cr(VI)污染。在各种操作条件下,通过使用悬浮生物质和固定生物质(固定在火山灰颗粒上)来评估Cr(VI)的生物去除性能。结果表明,固定化生物质比悬浮生物质更有效,更耐Cr(VI)毒性。事实上,对于50 mg l−1的初始浓度,Cr(VI)在96小时内被固定的生物质完全消除,而对于悬浮的生物质,这一速率在120小时后获得。动力学数据与拟一阶动力学模型拟合良好。颗粒内扩散动力学模型表明,初始浓度对Cr(VI)的扩散过程有很大影响。生活污水中存在的微生物菌群是一种很有前途的生物吸附剂,能够处理含铬废水。
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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