• Title of article

    Bioleaching of Molybdenum by Two New Thermophilic Strains Isolated and Characterized

  • Author/Authors

    Roshani, Mahshid Biotechnology Group - Faculty of Chemical Engineering - Tarbiat Modares University - Tehran , Shojaosadati, Seyed Abbas Biotechnology Group - Faculty of Chemical Engineering - Tarbiat Modares University - Tehran , Vasheghani-Farahani, Ebrahim Biotechnology Group - Faculty of Chemical Engineering - Tarbiat Modares University - Tehran , Safdari, Seyed Jaber Nuclear Fuel Cycle Research School - Nuclear Science and Technology Research Institute - AEOI - Tehran , Mirjalili, Kazem Nuclear Fuel Cycle Research School - Nuclear Science and Technology Research Institute - AEOI - Tehran , Manafi, Zahra Department of Microbiology - Islamic Azad University - Jahrom Branch - Jahrom,

  • Pages
    12
  • From page
    183
  • To page
    194
  • Abstract
    This study involves the isolation and characterization of a bacterial strain capable of bioleaching molybdenum ore. Bacterial growth was observed when rock sample was incubated in 9K at 70 ºC. The isolates were identified as extremely acidophilic, thermophilic and chemolithotroph archaebacteria. Following PCR amplification of the 16S rDNA of the isolated strain, the sequencing of this region and comparison with the Gen-Bank database identified the strains as Acidianus ambivalens and Sulfolobus solfataricus. An experimental design was carried out to optimize bioleaching of molybdenum by these bacteria. Factors of pulp density, initial pH, the concentration of Fe3+ and the ratio of two bacteria are the variables and molybdenum and uranium recovery were selected as responses. Bioleaching was carried out using molybdenum ore and pulp density of 4%, initial pH of 1.5, Fe3+ concentration of 11.5 g/L and Sulfolobus solfataricus to Acidianus ambivalens ratio of 2.0 were selected as optimum conditions. Molybdenum and uranium recoveries were 43.2% and 79.1% respectively.
  • Keywords
    Acidianus ambivalens , Sulfolobus solfataricus , Molybdenum extraction , Thermophilic bacteria , Bioleaching
  • Journal title
    Astroparticle Physics
  • Serial Year
    2017
  • Record number

    2428894