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2014 | 23 | 2 |
Tytuł artykułu

Potentials of biosorption and bioaccumulation processes for heavy metal removal

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Biosorption and bioaccumulation can be applied to remedy environments contaminated with heavy metals as complementary methods to currently used physical and chemical methods. The overall goal of this work was to analyze potentials of biosorption and bioaccumulation for removal of heavy metals from the contaminated environment. The most frequently used methods for removal of heavy metals from water and wastewater were presented. Select biosorbents applied in the process of removal of heavy metals from contaminated environment were characterized. Factors that influence biosorption were analyzed. Also, methods for improving the efficiency of removal of heavy metals with biosorbents through biomass modification and immobilization were presented. Types of reactors applied in the processes of biosorption and bioaccumulation were described. It was found that removal of heavy metals from the environment with biotechnological methods should consider a number of physicochemical factors such as temperature, pH, contact time of biomass, and a solution containing metals, concentration and age of biomass, and toxicity when living microorganisms are applied. Improving the efficiency of removal of metals can be performed through physical and chemical modifications and immobilization of biomass. The most frequently applied reactors include: stirred tank reactors, fixed-bed, reactors and fluidized-bed reactors.
Słowa kluczowe
Wydawca
-
Rocznik
Tom
23
Numer
2
Opis fizyczny
p.551-561,fig.,ref.
Twórcy
  • Institute of Environmental Engineering, Czestochowa University of Technology, Brzeznicka 60a, 42-200 Czestochowa, Poland
autor
  • Department of Bioprocess Engineering, Wroclaw University of Economics, Komandorska 118/120, 53-345 Wroclaw, Poland
Bibliografia
  • 1. SZYMAŃSKI K. Lead and chromium compounds in the natural environment and wastes. Rocznik Ochrona Środowiska 11, 173, 2009.
  • 2. FILIPIUK D., FUKS L., MAJDAN M. Biosorption as a new method for sequestering heavy metals in industrial aqueous effluents. Przemysł Chemiczny 85, (6), 417, 2006.
  • 3. BABÁK L., ŠUPINOVÁ P., ZICHOVÁ M., BURDYCHOVÁ R., VÍTOVÁ E. Biosorption of Cu, Zn and Pb by thermophilic bacteria – effect of biomass concentration on biosorption capacity. Acta Universitatis Agriculturae Et Silviculturae Mendelianae Brunensis LX 1, (5), 9, 2012.
  • 4. AHALYA N., RAMACHANDRA T.V., KANAMADI R.D. Biosorption of heavy metals. Research Journal of Chemistry and Environment 7, (4), 71, 2004.
  • 5. ANIELAK A., PIASKOWSKI K. Laboratory research of sewage treatment with activated sludge using zeolite and PIX. Rocznik Ochrona Środowiska 2, 281, 2000.
  • 6. TCHOBANOGLOUS G., BURTON F.L. STENSEL H.D. Wastewater engineering treatment and reuse, McGraw-Hill, 2003.
  • 7. QDAIS H.A., MOUSSA H. Removal of heavy metals from wastewater by membrane processes: a comparative study. Desalination 164, (2), 105, 2004.
  • 8. PIECUCH T., PIEKARSKI J., KNUT E. Research on dependence between efficiency and quality of wastewater treatment in the sorption process. Rocznik Ochrona Środowiska 4, 439, 2002.
  • 9. CHOJNACKA K. Biosorption and bioaccumulation in practice, Nova Science Publishers Inc., New York, 2009.
  • 10. SINGH V.P., STAPLETON R.D. Biotransformations: bioremediation technology for health and environmental protection, Elsevier, Amsterdam, 2002.
  • 11. CHOJNACKA K. Biosorption and bioaccumulation – the prospects for practical applications. Environ. Int. 36, (3), 299, 2010.
  • 12. WANG K., HUNG Y., SHAMMAS K. Advanced physicochemical treatment processes, Human Press, New Jersey, 2007.
  • 13. VIJAYARAGHAVAN K., YUN Y. Bacterial biosorbents and biosorption. Biotechology Advances 26, (3), 266, 2009.
  • 14. DĄBROWSKA G., HRYNKIEWICZ K., KŁOSOWSKA K., GOC A. Selection of Rhizobacteria improving phytoremediation of soil contaminated with heavy metal compounds. Ochrona Środowiska 33, (2), 53, 2011.
  • 15. EVANS G.M., FURLONG J.C. Environmental biotechnology: theory and application., Wiley, 2003.
  • 16. CHMIEL A. Biotechnology – Introduction to microbiology and biochemistry, Wydawnictwo Naukowe PWN, Warszawa, 1998.
  • 17. RESSOM R., SOONG F.S., FITZGERALD J., TURCZYNOWICZ L., EL SAADI O., RODER D., MAYNARD T., FALCONER I. Health effects of toxic cyanobacteria (blue-green algae), National Health and Medical Research Council, Commonwealth of Australia, Canberra, 1994.
  • 18. PODBIELKOWSKI Z. Algae. Wydawnictwo Szkolne i Pedagogiczne, Warszawa 1996.
  • 19. SADOWSKI Z. Biogeochemistry, Wydawnictwo Politechniki Wrocławskiej, Wrocław, 2005.
  • 20. ZABOCHNICKA-ŚWIĄTEK M. Algae – feedstock of the future. Archivum Combustionis 30, (3), 225, 2010.
  • 21. ZABOCHNICKA-ŚWIĄTEK M. Microalgae – Based Carbon Capture Technology. Archivum Combustionis 32, (1-2), 3, 2011.
  • 22. WANG J., CHEN C. Biosorbents for heavy metals removal and their future. Biotechnology Advances 27, (2), 195, 2009.
  • 23. TOMCZAK E., SZCZERKOWSKA D., MANIOS M. Application of chitosan bed in a column for sorption of Cu(II), Ni(II) and Zn(II). Proceedings of ECOpole 1, 265, 2007.
  • 24. BIEŃ J., ZABOCHNICKA-ŚWIĄTEK M., SŁAWIK L. The possibilities of using algae from the eutrophic water biomass for biofuel production Inżynieria i Ochrona Środowiska 13, (3), 197, 2011.
  • 25. WNEK G.E., BOWLIN G.L. Encyclopedia of biomaterials and biomedical engineering. Informa Healthcare, New York, 2008.
  • 26. NOMANBHAY M., PALANISAMY K. Removal of heavy metal from industrial wastewater using chitosan coated oil palm shell charcoal. Electronic Journal of Biotechnology 8, (1), 43, 2005.
  • 27. WITEK-KROWIAK A., SZAFRAN R., MODELSKI S., KOWALSKA I. Chromium(III) ion removal from aqueous solutions by a submerged hollow-fiber adsorber. Ochrona Środowiska 32, (3), 49, 2010.
  • 28. ROSS I.S., TOWNSELY C.C. The uptake of heavy metals by filamentous fungi. Immobilisation of ions by biosorption, Eds. H. Eccles and S. Hunt, Ellis Horwood Publ., 1986.
  • 29. GADD G.M., WHITE C., DE ROME L. Heavy metal and radionuclide uptake by fungi and yeasts. Biohydrometallurgy, edited by P.R. Norris and D.P. Kelly A. Rowe, Chippenham, Wilts., UK, 1988.
  • 30. KUHN A S.P., PFISTER R.M. Adsorption of mixed metals and cadmium by calcium-alginate immobilized Zooglea ramigera. Appl. Microbiol. Biot. 31, 613, 1989.
Typ dokumentu
Bibliografia
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