斜生栅藻对含氰废水的生物降解作用

Biodegradation of cyanide containing effluents by Scenedesmus obliquus.

作者信息

Gurbuz Fatma, Ciftci Hasan, Akcil Ata

机构信息

Suleyman Demirel University, Department of Biological Sciences, TR32260 Isparta, Turkey.

出版信息

J Hazard Mater. 2009 Feb 15;162(1):74-9. doi: 10.1016/j.jhazmat.2008.05.008. Epub 2008 May 9.

DOI:10.1016/j.jhazmat.2008.05.008

PMID:18554792

Abstract

Biological degradation of cyanide has been shown a viable and robust process for degrading cyanide in mining process wastewaters. Several algal cultures can effectively degrade cyanide as carbon and/or nitrogen source for their growth. In this study, cyanide effluent degradation by Scenedesmus obliquus was examined. Gold mill effluents containing WAD cyanide concentration of 77.9mg/L was fed to batch unit to examine the ability of S. obliquus for degrading cyanide. Cyanide was reduced down to 6mg/L in 77h. Microbial growth and metal uptake of Zn, Fe and Cu was examined during cyanide degradation. The cells well adapted to high pH and the effluent contained cyanide and the metals. It is important that Zn level reduced down 50%, of the starting concentration. pH was kept at 10.3 to prevent loss of cyanide as HCN, due its volatile nature. The bio treatment process was considered to be successful in degrading cyanide in the mine process water.

摘要

氰化物的生物降解已被证明是一种在采矿工艺废水中降解氰化物的可行且有效的方法。几种藻类培养物可以有效地将氰化物作为其生长的碳和/或氮源进行降解。在本研究中，对斜生栅藻降解氰化物废水进行了研究。将含有77.9mg/L弱酸性可滴定氰化物（WAD氰化物）浓度的金矿废水输入间歇式装置，以检测斜生栅藻降解氰化物的能力。在77小时内，氰化物浓度降至6mg/L。在氰化物降解过程中，检测了微生物的生长以及锌、铁和铜的金属吸收情况。细胞很好地适应了高pH值，并且废水中含有氰化物和金属。重要的是，锌含量降低到了起始浓度的50%。由于氰化氢具有挥发性，因此将pH值保持在10.3以防止氰化物以氰化氢形式损失。生物处理过程被认为成功地降解了矿山工艺水中的氰化物。

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斜生栅藻对含氰废水的生物降解作用

Biodegradation of cyanide containing effluents by Scenedesmus obliquus.

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