Microbial Leaching for Recovery of Nickel and Cobalt from Lateritic Ore: A Review

机译：来自眼光矿石的镍和钴的微生物浸出：综述

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The use of heterotrophic fungi (strains of Aspergillus and Penicillium) and bacteria (strains of Bacillus and Pseudomona) for metal recovery have been extensively studied. However, in case of nickel recovery from lateritic ores, strains of Aspergillus and Penicillium are the most preferred microorganisms. Acidithiobacillus ferrooxidans a chemolithotrophic bacterium has been reported to solubilize nickel from lateritic ore by microbial reductive method. Recent study reported about the use of DIRB (Dissimilatory Iron Reducing Bacteria) in bio-reduction of lateritic chromite overburden (COB) and enhancement in nickel and cobalt recovery. Subsequent leaching of DIRB pretreated ore by H_2SO_4 results in enhanced recovery of nickel and cobalt. Further work is required to better understand the bioleaching process and identification of more efficient microbial strains.

机译：已经广泛地研究了使用异养真菌（Aspergillus和Penicillus和Penicillus和penicillium的菌株）和细菌（Bacillus和Pseudomona的菌株）已经过度研究。然而，如果从外层矿石中镍恢复，曲霉和青菌株的菌株是最优选的微生物。据报道，酸酐毒蕈氟苯磺酸辛苷一种化学型营养细菌通过微生物还原方法将镍与外膜矿石溶解氧化。最近的研究报告说，在外层铬铁矿覆盖层（COB）的生物减少中使用DiDB（抗化铁还原细菌）和镍和钴的增强。随后通过H_2SO_4浸出甲状腺炎预处理的矿石导致镍和钴的增强恢复。需要进一步的工作来更好地理解生物浸入过程和鉴定更有效的微生物菌株。

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《International Symposium on Nickel and CobaTMS Annual Meeting Exhibition》|2021年|351p|共12页
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Lala Behari Sukla; Archana Pattanaik; D. P. Krishna Samal; Debabrata Pradhan;
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原文格式 PDF
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中图分类 TF1-53;
关键词
Laterite ores; Chromite overburden; Sukinda valley; Bioleaching; Heterotrophic microbes; Chemolithotrophic microbes; DIRB;

机译：红土矿石;铬铁矿覆盖物;Sukinda谷;生物浸润;异养微生物;化学营养微生物;DIRB;

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1. Biological Leaching Of Nickel And Cobalt From Lateritic Nickel Ore Of Sukinda Mines [J] . Smaranika Mohapatra, Chandan Sengupta, Bansi Dhar Nayak, The Korean journal of chemical engineering . 2009,第1期

机译：Sukinda矿红土镍矿中镍和钴的生物浸出
2. Microbial leaching of metals from a lateritic nickel ore by pure and mixed cultures of mesophilic acidophiles [J] . Ciftci Hasan, Atik Suleyman Metallurgical Research & Technology . 2017,第5期

机译：通过浸润性嗜酸铋纯净的培养物从外侧镍矿石中微生物浸出金属
3. Effect Of Thermal Pretreatment On Recovery Of Nickel And Cobalt From Sukinda Lateritic Nickel Ore Using Microorganisms [J] . Smaranika Mohapatra, Chandan Sengupta, Bansi Dhar Nayak, The Korean journal of chemical engineering . 2008,第5期

机译：微生物预处理对Sukinda红土镍矿中镍和钴回收的影响
4. Microbial Leaching for Recovery of Nickel and Cobalt from Lateritic Ore: A Review [C] . Lala Behari Sukla, Archana Pattanaik, D. P. Krishna Samal, International Symposium on Nickel and CobaTMS Annual Meeting Exhibition . 2021

机译：来自眼光矿石的镍和钴的微生物浸出：综述
5. The selective sulphidation and physical upgrading of nickel from a nickeliferous lateritic ore. [D] . Harris, Christopher Thomas. 2012

机译：含镍红土矿石中镍的选择性硫化和物理提质。
6. Efficient Synchronous Extraction of Nickel Copper and Cobalt from Low–Nickel Matte by Sulfation Roasting‒Water Leaching Process [O] . Qiangchao Sun, Hongwei Cheng, Xiaoyong Mei, -1

机译：硫酸焙烧-水浸工艺从低镍雾面中高效同步萃取镍铜和钴
7. Recovery of nickel and cobalt as MHP from limonitic ore leaching solution: Kinetics analysis and precipitate characterization [O] . Nina Safitri, M. Zaki Mubarok, Ronny Winarko, 2018

机译：从唇橙矿浸出溶液中恢复镍和钴作为MHP：动力学分析和沉淀性表征
8. Chromium Recovery from Nickel-Cobalt-Laterite and Laterite Leach Residue [R] . Kirby, D. E. , George, D. R. , Daellenbach, C. B. 1982

机译：从镍 - 钴 - 红土和红土浸出中回收铬

Microbial Leaching for Recovery of Nickel and Cobalt from Lateritic Ore: A Review

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