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Bioleaching of uranium minerals and biosynthesis of UO2 nanoparticles

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Uranium mining has resulted in generation of significant amounts of solid wastes. The mecha-nism and chemical conditions of uranium waste bioleaching were considered. The initial results of bi-oleaching of solid waste from closed Kowary mine were presented. The process of U(VI) bioreduction by anaerobic reduction microorganisms was described. The factors that contributed to UO2 nanoparticles fabrication were discussed. The obtained UO2 particles are promising for development of novel catalysts.
Rocznik
Strony
71--79
Opis fizyczny
Bibliogr. 21 poz., rys. tab.
Twórcy
  • Wroclaw University of Technology, Chemical Engineering Department, Wybrzeze Wyspianskiego 27, 50 370 Wroclaw, POLAND
autor
  • Wroclaw University of Technology, Chemical Engineering Department, Wybrzeze Wyspianskiego 27, 50 370 Wroclaw, POLAND
Bibliografia
  • 1. ABHILASH, MEHTA K.D., KUMAR V., PANDEY D.B., TAMRAKAR K.P., 2011, Bioleaching – An alternate uranium ore processing technology for India, Energy Procedia 7, 158–162.
  • 2. BEHRENDS T., VAN CAPPELLEN P., 2005, Competition between enzymatic abiotic reduction of ura-nium(VI) under iron reducing conditions, Chemical Geology, 220, 315–327.
  • 3. BURGOS D.W., MCDONOAGH T.J. SENKO M.J., ZHANG G., DOHNALKOVA G.A., KELLY D.S., GORBY Y., KEMNER M.K., 2008, Characterization of uraninite nanoparticles produced by She-wanella aneidensis MR-1, Geochimica et Cosmochimica Acta, 72, 4901–4915.
  • 4. CECAL A., HUMELNICU D., POPA K., RUDIC V., GULEA A., PALMARU I., NEMTOI G., 2000, Bioleaching of UO22+ ions from poor uranium ores by means of cyanobacteria, J. Radioanalytical Nuclear Chemistry, 245, 427–429.
  • 5. CHOI M-S., CHO S-K., KIM S-D., RYU W-H., 2005, Bioleaching of uranium from low grade black schists by Acidithiobacillus ferrooxidans, World J. Microbiology Biotechnology, 21, 377–380.
  • 6. FRANCIS J.A., DODGE J.C., 2008, Bioreduction of uranium(VI) complexed with citric acid by Clostrid-ia affects its structure and solubility, Environ. Sci. Technol., 42, 8277–8282.
  • 7. GARGARELLO M.R., DI GREGORIO D., HUCK H., FERNANDEZ NIELLO J., CURUTCHET G., 2010, Reduction of uranium(VI) by Acidithiobacillus thiooxidans and Acidithiobacillus ferrooxidans, Hydrometallurgy, 104, 529–532.
  • 8. GAVRILESCU M., PAVEL V.L., CRETESCU I., Characterization and remediation of soils contaminat-ed with uranium, J. Hazardous Materials, 163, 475–510.
  • 9. GROUDEV S., GEORIEV P., SPASOVA I., NICOLOVA M., 2008, Bioremediation of acid mine drain-age in uranium deposit, Hydrometallurgy, 94, 93–99.
  • 10. KAZY K.S., D’SOUZA F.S., SAR P., 2009, Uranium and thorium sequestration by a Pseudomonas sp.: mechanism and chemical characterization, J. Hazardous Materials, 163, 65–72.
  • 11. LEE J-U., KIM S-M., KIM K-W, KIM S.I., 2005, Microbial removal of uranium in uranium-bearing black shale, Chemosphere, 59, 147–154.
  • 12. LOTTERING J.M., LORENZEN L., PHALA S.N., SMIT T.J., SCHAKWYK C.A.G., 2008, Mineralogy and uranium leaching response of low grade South African ores, Minerals Engineering, 21, 16–22.
  • 13. MARTINS M., FALEIRO L.M., CHAVES S., TENREIRO R., COSTA M.C., 2010, Effect of uranium (VI) on two sulphate-reducing bacteria culture from a uranium mine site, Science Total Environment, 408, 2621–2628.
  • 14. MARTINS M., FALEIRO L.M., CHAVES S., TENREIRO R., SANTOS E., COSTA M.C., 2010, An-aerobic bio-removal of uranium (VI) and chromium (VI): Comparison of microbial community struc-ture, J. Hazardous Materials, 176, 1065–1072.
  • 15. MERROUN L.M., SELENSKA-POBELL S., 2001, Interactions of three eco-types of Acidithiobacillus ferrooxidans with U(VI), BioMetals, 14, 171–179.
  • 16. PAL S., PRADHAN D., DAS T., SUKLA B.L., CHAUDHURY R.G., 2010, Bioleaching of low-grade uranium ore using Acidithiobacillus ferrooxidans, Indian J. Microbiol, 50, 70–75.
  • 17. POLLMANN K. RAFF J., MERROUN M., FAHMY K., SALENSKA-PODELLl S., 2006, Metal binding by bacteria from uranium mining waste piles and its technological applications, Biotechnology Ad-vances, 24, 58–68.
  • 18. RASHIDI A., SAFDARI, ROOSTA-AZAD R., ZOKAEI-KADIJANI. 2012, Modeling of uranium bi-oleaching by Acidithiobacillus ferrooxidans. Annales Nuclar Energy, 43, 13–18.
  • 19. SCHIERZ A., ZANKER H., 2009 Aqueous suspension of carbon nanotubes . Surface oxidation, colloid stability and uranium sorption, Environmental Pollution, 157, 1088–1094.
  • 20. SENKO M.J., KELLY D.S., DOHNALKOVA C.A., MC DONOUGH T.J., KEMNER M.K., Durgos D.W., 2007 The effect of U(VI) bioreduction kinetics on subsequent reoxidation of biogenic U(IV), Geochemica et Cosmochimica Acta, 71, 4644–4654.
  • 21. ZHANG G., SENKO M.J., KELLY D.S., TAN H., KEMNER M.K.. BURGOS D.W., 2009, Microbial reduction of iron(III)-rich nontronite and uranium(VI), Geochimica et Cosmochimica Acta, 73, 3523–3538.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-35106348-4336-4442-99ea-41ebff1ec2b4
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