Column Bioleaching of a Saline, Calcareous Copper Sulfide Ore

机译：盐分，钙质硫化铜矿的柱生物浸出

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"Deep in situ biomining", widely considered to be a potentially environmentally-benign and cost effective biotechnology for extracting and recovering base metals from deep-buried base metal deposits, is being developed within the EU Horizon 2020 project "BioMOre". Data are presented from non-aerated column experiments in which a saline, calcareous copper-rich ore (Kupferschiefer) was subjected to a three-stage teaching protocol: (i) with water, to remove soluble salts; (ii) with sulfuric acid, to remove calcareous minerals and other acid-soluble salts; (iii) indirect bioleaching with a microbiologically-generated ferric iron lixiviant. Sequential leaching with water and acid removed -85% of the chloride prior to bio-processing, while -13% of the copper present in the ore was leached using sulfuric acid, and a further 39 - 59% by the lixiviant.

机译：EU Horizon 2020项目“ BioMOre”中正在开发“深层生物采矿”，该技术被广泛认为是一种潜在的环境友好型且具有成本效益的生物技术，用于从深埋的贱金属矿床中提取和回收贱金属。数据来自非充气柱实验，在该实验中，对盐水钙质富铜矿石（Kupferschiefer）进行了三阶段教学方案：（i）用水去除可溶性盐; （ii）用硫酸除去钙质矿物质和其他酸溶性盐; （iii）用微生物产生的浸提铁间接生物浸提。在进行生物处理之前，先后用水和酸的浸提除去了-85％的氯化物，而矿石中存在的-13％的铜是用硫酸浸出的，另外39- 59％的浸滤剂被浸出了。

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《International biohydrometallurgy symposium》|2017年|7-11|共5页
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Eva Pakostova; Barry M. Grail; D. Barrie Johnson;
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bioreactors; copper; in situ bioleaching; Kupferschiefer;

机译：生物反应器铜;原位生物浸出库普费舍夫;

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1. Effects of Fe3+ and Ag+ on Column Bioleaching of a Low-grade Sulfide Copper Ore [J] . Liangyou Jiang, Dezhou Wei, Wengang Liu, International Journal of Electrochemical Science . 2019,第7期

机译：Fe 3 + 和Ag + 对低品位硫化铜矿柱生物浸出的影响
2. Column bioleaching characteristic of copper and iron from Zijinshan sulfide ores by acid mine drainage [J] . Wu Zeng-ling, Zou Lai-chang, Chen Jin-he, International Journal of Mineral Processing . 2016,第Null期

机译：酸性矿山排水对紫金山硫化矿中铜和铁的柱浸出特性
3. Column bioleaching characteristic of copper and iron from Zijinshan sulfide ores by acid mine drainage [J] . Wu Zeng-ling, Zou Lai-chang, Chen Jin-he, International Journal of Mineral Processing . 2016,第Null期

机译：锡金山硫化物矿物柱的柱体生物浸出特性酸性矿山排水
4. Column Bioleaching of a Saline, Calcareous Copper Sulfide Ore [C] . Eva Pakostova, Barry M. Grail, D. Barrie Johnson International Biohydrometallurgy Symposium . 2017

机译：柱状生物浸润，钙质硫化铜矿石
5. Experimental Investigation of the Thermochemical Reduction of Arsenite and Sulfate: Low Temperature Hydrothermal Copper, Nickel, and Cobalt Arsenide and Sulfide Ore Formation [D] . Allin, Nicholas C. 2019

机译：砷和硫酸盐热化学还原的实验研究：低温热液铜，镍和钴的砷化物和硫化物成矿
6. Column Bioleaching of Fluoride-Containing Secondary Copper Sulfide Ores: Experiments With Sulfobacillus thermosulfidooxidans [O] . Michael L. M. Rodrigues, Guilherme H. A. Santos, Hamilton C. Leôncio, 2018

机译：含氟化物的次级硫化铜矿石的柱生物浸出：热硫代氧化细菌的实验
7. Effects of Fe3+ and Ag+ on Column Bioleaching of a Low-grade Sulfide Copper Ore [O] . Liangyou Jiang 2019

机译：Fe3 +和Ag +对低级硫化物铜矿柱生物浸出的影响

Column Bioleaching of a Saline, Calcareous Copper Sulfide Ore

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