在强酸性条件下利用耐酸细菌回收贱金属。

IF 2.6 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Chikara Takano, Kazunori Nakashima, Satoru Kawasaki, Hideki Aoyagi
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引用次数: 0

摘要

在环保型电子设备废物(电子废物)回收过程中,用于回收贱金属的湿法冶金生物工艺通常是在中性 pH 值条件下进行研究的,以避免金属与氢离子之间的竞争。然而,金属浸出液通常呈强酸性,因此在将这些生物工艺应用于电子废物回收时,必须进行中和处理。为了解决这种酸碱度差异,我们重点研究了在强酸性条件下回收金属的耐酸细菌。我们从中性 pH 环境中分离出四种耐酸细菌菌株,无需中和即可从模拟废物金属浸出液(pH 值为 1.5,含有 100 或 1000 mg L-1 的钴、铜、锂、锰和镍)中回收贱金属。利用这些菌株和一种已报道的金属吸附细菌--黄微球菌 JCM1464,建立了连续金属回收的实验室环境。从 100 mg L-1 金属混合物中成功回收了金属物种,回收率如下:钴(8.95%)、铜(21.23%)、锂(5.49%)、锰(13.18%)和镍(9.91%)。从 1000 毫克/升-1 的金属混合物中,回收了钴(7.23%)、铜(6.82%)、锂(5.85%)、锰(7.64%)和镍(7.52%)。这些结果表明了耐酸细菌对环境友好型贱金属回收的适应性,有助于开发由耐酸细菌组成的有益但未被利用的生物资源的新型工业应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utilisation of acid-tolerant bacteria for base metal recovery under strongly acidic conditions.

Hydrometallurgical bioprocesses for base metal recovery in environmentally friendly electronic device waste (e-waste) recycling are typically studied under neutral pH conditions to avoid competition between metals and hydrogen ions. However, metal leachate is generally strongly acidic, thus necessitating a neutralisation process in the application of these bioprocesses to e-waste recycling. To solve this pH disparity, we focused on acid-tolerant bacteria for metal recovery under strongly acidic conditions. Four acid-tolerant bacterial strains were isolated from neutral pH environments to recover base metals from simulated waste metal leachate (pH 1.5, containing 100 or 1000 mg L-1 of Co, Cu, Li, Mn, and Ni) without neutralisation. The laboratory setting for sequential metal recovery was established using these strains and a reported metal-adsorbing bacterium, Micrococcus luteus JCM1464. The metal species were successfully recovered from 100 mg L-1 metal mixtures at the following rates: Co (8.95%), Cu (21.23%), Li (5.49%), Mn (13.18%), and Ni (9.91%). From 1000 mg L-1 metal mixtures, Co (7.23%), Cu (6.82%), Li (5.85%), Mn (7.64%), and Ni (7.52%) were recovered. These results indicated the amenability of acid-tolerant bacteria to environmentally friendly base metal recycling, contributing to the development of novel industrial application of the beneficial but unutilised bioresource comprising acid-tolerant bacteria.

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来源期刊
Extremophiles
Extremophiles 生物-生化与分子生物学
CiteScore
6.80
自引率
6.90%
发文量
28
审稿时长
2 months
期刊介绍: Extremophiles features original research articles, reviews, and method papers on the biology, molecular biology, structure, function, and applications of microbial life at high or low temperature, pressure, acidity, alkalinity, salinity, or desiccation; or in the presence of organic solvents, heavy metals, normally toxic substances, or radiation.
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