The effect of Phanerochaete chrysosporium on degradation and preg-robbing capacity of activated carbon,which was used as a substitute of carbonaceous matter in carbonaceous gold ores,was studied.After 14 d treatment with Phanerochaete chrysosporium,the degradation rate of activated carbon reached 27.59%.The XRD and FTIR analyses indicate that Phanerochaete chrysosporium can distort the micro-crystalline structure of activated carbon,increase the number of oxygen-containing groups and aliphatics and make the aromatic structures be oxidized and exfoliated.The gold-adsorption tests show that Phanerochaete chrysosporium can reduce the preg-robbing capacity of activated carbon by 12.88%.This indicates that Phanerochaete chrysosporium is an available microorganism,and it can be employed to reduce the preg-robbing capacity of carbonaceous matter and improve the gold leaching rate.The combined effect of passivation,alkalization and oxidation of biological enzymes-free radicals of Phanerochaete chrysosporium on carbonaceous matter was also discussed.
Carbonaceous gold mines are important refractory gold ores. The previous results demonstrate that the carbonaceous matter is mainly composed of elemental carbon, organic acid and hydrocarbons. The dissolved aurocyanide complex is robbed by adsorption of carbonaceous matter, which is similar to activated carbon in cyanide leaching of gold. The pretreatment methods of carbonaceous gold ores were introduced, including high temperature roasting, bio-oxidation, chemical oxidation, competitive adsorption, barrier inhibition and microwave roasting. Recently, bio-oxidation was developed rapidly due to its advantages such as mild conditions, simple processes, low energy consumption and friendly environment. The known microorganisms related with bio-oxidation pretreatment mainly are chemolithotroph bacteria such as Thiobacillus ferrooxidans, Thiobacillus thiooxidans and Leptospirillum ferrooxidans. The researches on decomposing and passivating carbonaceous matter were commenced by Phanerochaete chrysosporium, Pseudomonadaceae and Streptomyces setonii. Finally, the main problems were analyzed and the application prospect of this technique was looked forward.
以活性炭作为含碳金矿中碳质物的替代物,研究了球红假单胞菌对其的降解转化及吸金能力的影响.通过正交试验确定了球红假单胞菌降解活性炭的最优工艺组合:粒度<74μm、炭浆质量分数5%、降解时间14 d、菌液用量1 m L/100 m L,此时活性炭的降解率高达28.35%.金吸附性试验表明,球红假单胞菌可使活性炭的吸金能力降低11.46%.球红假单胞菌使活性炭的微晶结构发生变化;一些芳环结构被破坏;含氧基团和芳香族结构的数量增多.这说明球红假单胞菌在降低碳质物劫金性方面是一种有效微生物.
从活性污泥、水体底泥、植物根系土壤和草莓种植土壤中筛选、分离、纯化,获得了高絮凝活性的菌株,并考察发酵液用量、助凝剂用量以及碳、氮源种类对絮凝活性的影响及菌株对实际重金属废水的絮凝作用。结果表明:以葡萄糖为碳源,酵母膏为氮源,菌体发酵液用量0.2 m L,助凝剂用量0.8 m L时,菌株QB1的絮凝性最高,可达到93%。其对多种重金属废水均具有较好的处理性能,对含铅废水的去除率最高可达99%以上。
