Bioleaching of low-grade nickel sulphide ore at elevated pH

This thesis examines the bioleaching of six different Canadian nickel sulphide ores at pH levels above what is generally considered optimum (~ 2). The majority of work discussed in this thesis was conducted with a low-grade metamorphosed ultramafic nickel sulphide ore from Manitoba, Canada (Ore 3),...

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Main Author: Cameron, Rory
Language:en
Published: 2011
Subjects:
Online Access:http://hdl.handle.net/10393/19784
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.#10393-197842014-06-14T03:49:21ZBioleaching of low-grade nickel sulphide ore at elevated pHCameron, Rorybioleachingpentlanditebio-oxidationnickel sulphide orenickel sulfide orestirred-tank reactorserpentineultramaficThis thesis examines the bioleaching of six different Canadian nickel sulphide ores at pH levels above what is generally considered optimum (~ 2). The majority of work discussed in this thesis was conducted with a low-grade metamorphosed ultramafic nickel sulphide ore from Manitoba, Canada (Ore 3), which is not currently exploitable with conventional technologies. The ore contains 21% magnesium and 0.3% nickel. Nickel is the only significant metal value, and is present primarily as pentlandite. A substantial fraction of the magnesium is present as the serpentine mineral lizardite, making processing difficult with conventional pyro- and biohydrometallurgical techniques. The work with this ore has two equally important objectives: to minimize magnesium mobilization and to obtain an acceptable level of nickel extraction. Batch stirred-tank bioleaching experiments were conducted with finely ground ore ( 147 µm) with temperature and pH control. The first phase of experimentation examined the effect of pH (2 to 6) at 30 °C, and the second phase examined all combinations of three pH levels (3, 4 and 5) and five temperatures (5, 15, 22.5, 30, and 45 °C).2011-02-18T20:56:05Z2011-02-18T20:56:05Z20112011-02-18thesishttp://hdl.handle.net/10393/19784en
collection NDLTD
language en
sources NDLTD
topic bioleaching
pentlandite
bio-oxidation
nickel sulphide ore
nickel sulfide ore
stirred-tank reactor
serpentine
ultramafic
spellingShingle bioleaching
pentlandite
bio-oxidation
nickel sulphide ore
nickel sulfide ore
stirred-tank reactor
serpentine
ultramafic
Cameron, Rory
Bioleaching of low-grade nickel sulphide ore at elevated pH
description This thesis examines the bioleaching of six different Canadian nickel sulphide ores at pH levels above what is generally considered optimum (~ 2). The majority of work discussed in this thesis was conducted with a low-grade metamorphosed ultramafic nickel sulphide ore from Manitoba, Canada (Ore 3), which is not currently exploitable with conventional technologies. The ore contains 21% magnesium and 0.3% nickel. Nickel is the only significant metal value, and is present primarily as pentlandite. A substantial fraction of the magnesium is present as the serpentine mineral lizardite, making processing difficult with conventional pyro- and biohydrometallurgical techniques. The work with this ore has two equally important objectives: to minimize magnesium mobilization and to obtain an acceptable level of nickel extraction. Batch stirred-tank bioleaching experiments were conducted with finely ground ore ( 147 µm) with temperature and pH control. The first phase of experimentation examined the effect of pH (2 to 6) at 30 °C, and the second phase examined all combinations of three pH levels (3, 4 and 5) and five temperatures (5, 15, 22.5, 30, and 45 °C).
author Cameron, Rory
author_facet Cameron, Rory
author_sort Cameron, Rory
title Bioleaching of low-grade nickel sulphide ore at elevated pH
title_short Bioleaching of low-grade nickel sulphide ore at elevated pH
title_full Bioleaching of low-grade nickel sulphide ore at elevated pH
title_fullStr Bioleaching of low-grade nickel sulphide ore at elevated pH
title_full_unstemmed Bioleaching of low-grade nickel sulphide ore at elevated pH
title_sort bioleaching of low-grade nickel sulphide ore at elevated ph
publishDate 2011
url http://hdl.handle.net/10393/19784
work_keys_str_mv AT cameronrory bioleachingoflowgradenickelsulphideoreatelevatedph
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