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  • TMS
    Microbial Effects On In-Situ Leaching

    By Steven E. Follin

    In-situ leaching is commonly used to recover uranium from low-grade deposits in sandstone formations. Acceptable recovery rates can only be obtained if the formation retains its permeability during le

    Jan 1, 1985

  • IMPC
    Microbial Induced Flotation Studies On Sphalerite Ore

    By Ashish Kumar

    High grade ore deposits in the world are fast depleting and the valuables in the low-grade ores are finely disseminated. The feed grade to flotation circuit is also declining. Attainment of suitable g

    Sep 1, 2012

  • AUSIMM
    Microbial Influences on Coal Seam Gas Reservoirs ù A Review

    Coal seam methane (CSM) is an æunconventionalÆ gas resource that is becoming an important energy resource for Australia, especially along the eastern seaboard. It has been conventionally believed that

    Jan 1, 2004

  • AIME
    Microbial Leaching of Copper Minerals

    By Joseph A. Sutton, John D. Corrick

    The continuing depletion of high-grade ore de- posits in this country has created a need to develop more effective methods for recovering valuable metals from low-grade ores. The use of microorganisms

    Jan 6, 1963

  • SME
    Microbial Leaching of Manganese Oxide Ore with Recovery of Manganese from Leach Solutions

    By J. A. Brierley, S. N. McIntosh, C. L. Brierley, E. G. Baglin, E. G. Noble, D. L. Lampshire

    The U.S. Bureau of Mines investigated column bioleaching as a means of recovering manganese from a domestic low-grade oxide ore. Manganese was solubilized from the ore using indigenous heterotrophic m

    Jan 1, 1993

  • TMS
    Microbial Leaching of Nickel fr.om Low. Grade Greek Laterites

    By K. Alibhai

    Greek laterites, which generally had nickel concentrations of < 1 %, are amenable to chemical leaching,. although there is considerable variability in the ease of leaching with different ore types. Wi

    Jan 1, 1991

  • SME
    Microbial Metabolites as Agents for Reduction of Metal Compounds to Pure Metal

    By John S. Thayer, Frederick E. Brinckman, Kenneth L. Jewett, Gregory J. Olson

    Interest and research in biorecovery of metals has focused mainly on cell-based metal leaching and precipitation. However, production of non-enzymatic metabolic products by microorganisms related to m

    Jan 1, 1989

  • SME
    Microbial Pretreatment Of Refractory Sulfide And Carbonaceous Gold Ores

    By S. R. Hutchins

    Several refractory sulfide and carbonaceous gold ores were examined to determine whether microbial pretreatment could be used to enhance gold recovery. Test samples were biologically leached using uni

    Jan 1, 1987

  • TMS
    Microbial Pretreatment of Refractory Sulfide and Carbonaceous Gold Ores (b46174b3-b48a-47d6-ac58-85a05ca2354d)

    By S. R. Hutchins

    Several refractory sulfide and carbonaceous gold ores were examined to determine whether microbial pretreatment could be used to enhance gold recovery. Test samples were biologically leached using uni

    Jan 1, 1987

  • SME
    Microbial pretreatment of refractory sulfide and carbonaceous ores improves the economics of gold recovery

    By J. A. Brierley, S. R. Hutchins, C. L. Brierley

    Introduction Many gold and silver ores are refractory to conventional processing technologies. Thus, precious metals recovery is uneconomic. These resources can consist of ores, flotation concentrate

    Jan 4, 1988

  • TMS
    Microbial Reduction of Lateritic Nickel Ore for Enhanced Recovery of Nickel and Cobalt through Biohydrometallurgical Route

    By N. Pradhan, B. K. Mishra, B. D. Nayak, B. K. Mohapatra, R. K. Mohapatra

    "Present study is about use of a group of Iron[Fe(III)] Reducing Bacteria (IRB) to convert the goethite (a-FeOOH) present in the original lateritic Nickel ore to magnetite under an anaerobic condition

    Jan 1, 2009

  • CIM
    Microbial Succession and Regulation during Heap Bioleaching of Copper Sulfides

    By H. Y. Sun, Q. Y. Tan, X. P. Niu, L. Li, Y. Jia, R. M. Ruan

    During bioleaching processes of sulfide minerals, the sulfide minerals act as the natural habitats for acidophiles, of which, most are autotrophic iron and sulfur oxidizing microbes. These microbes ac

    Jan 1, 2019

  • AUSIMM
    Microbial Versus Chemical Leaching of Chalcopyrite Concentrate ù A Quantitative Mineralogical Investigation

    By B, R E. Browner, H R. Watling

    A number of hydrometallurgical treatment methods are being developed to extract copper from chalcopyrite flotation concentrate including microbial leaching and ferric sulfate leaching. However, chalco

    Jan 1, 2004

  • IMPC
    Microbially Induced Biobeneficiation Of Hematite

    By H. Sarvamangala

    Selective separation of alumina, silica, calcite and apatite from hematite was achieved through microbiologically induced flotation and flocculation in presence of bacteria (B.subtilis) and that of he

    Sep 1, 2012

  • IMPC
    Microbially Induced Mineral Flotation And Flocculation

    By K. A. Natarajan

    "Interaction with microorganisms results in significant surface chemical changes on minerals. For example, chemolithotrophs such as Thiobacillus ferrooxidans and Thiobacillus thiooxidans significantly

    Jan 1, 2003

  • IMPC
    Microbially Induced Mineral Flotation and Flocculation (ABSTRACT PAGE)

    By K. A. Natarajan

    Interaction with microorganisms results in significant surface chemical changes on minerals. For example, chemolithotrophs such as Thiobacillus ferrooxidans and Thiobacillus thiooxidans significantly

    Jan 1, 2003

  • CIM
    Microbially Induced Selective Flotation for Complex Sulfides

    By K. A. Natarajan, M. N. Chandraprabha

    Selective separation of minerals from complex sulphide ores is a challenging task and it is often difficult to get commercially acceptable individual concentrates by conventional selective flotation u

    Jan 1, 2009

  • SME
    Microbially Induced Separation Of Arsenopyrite And Bioremediation Of Arsenic

    By M. N. Chandraprabha

    This paper discusses the role of the mineral-adapted acidiphilic microorganism Acidithiobacillus ferrooxidans in the beneficiation of arsenopyrite-containing multisulfides (pyrite and chalcopyrite) an

    Jan 1, 2009

  • SME
    Microbially Induced Separation Of Quartz From Hematite Using Yeast Cells And Metabolites

    By K. A. Natarajan

    The utility of yeast, Saccharomyces cerevisiae, in the separation of quartz from hematite is demonstrated. Yeast cells, as well as their metabolites, functioned as flotation collectors, depressants or

    May 1, 2012

  • CIM
    Microbially Mediated Leaching of Rare Earth Elements from Recyclable Materials

    By J. H. Reiss, D. F. Bruhn, Idaho National Laboratory, Y. Jiao, D. W. Reed, Y. Fujita, D. L. Daubaras

    "Bioleaching offers a potential approach for recovery of rare earth elements (REE) from recyclable materials, such as fluorescent lamp phosphors or degraded industrial catalysts. Microorganisms were e

    Jan 1, 2016