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2014 | 16 | 4 | 41-44
Tytuł artykułu

Modification of Salix americana willow bark for removal of heavy metal ions from aqueous solutions

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Salix americana willow bark is a waste arising in the process of wicker decortication that so far has not found any practical application. The bark can adsorb metal ions, because in its composition among others are phenolic groups which may be involved in the removal of metal ions from water solutions. The results of sorption of copper(II) and zinc(II) on modified willow bark of Salix americana were presented. The bark was modified with nitric and sulfuric acids at concentrations ranging from 5 to 15%. The best adsorption results were obtained using 15% nitric acid for modification. Adsorption of metal ions from aqueous solutions at concentrations raging from 20 to 100 mg/dm3 was studied. It was found that an increase in the initial concentration of copper(II) and zinc(II) resulted in an increase in their adsorption on the modified cortex.
Wydawca

Rocznik
Tom
16
Numer
4
Strony
41-44
Opis fizyczny
Daty
wydano
2014-12-01
online
2014-12-11
Twórcy
  • Poznań University of Economics, Faculty of Commodity Science, Department of Industrial Products Quality and Ecology, Niepodległości 10, 61-875 Poznań, Poland, iwona.rypinska@ue.poznan.pl
  • Poznań University of Economics, Faculty of Commodity Science, Department of Industrial Products Quality and Ecology, Niepodległości 10, 61-875 Poznań, Poland
Bibliografia
  • 1. Ghodbane, I., Nouri, L., Hamdaoui, O. & Chiha, M. (2008). Kinetic and equlilbrium study for the sorption of cadmium (II) ions from aqueous phase by eucalyptus bark, J. Hazard. Mater. 152, 148-158. DOI: 10.1016/j.jhazmat.2007.06.079.[WoS][Crossref]
  • 2. Chand, R., Narimura, K., Kawakita, H., Ohto, K., Watari T. & Inoue, K. (2009). Grape waste as a biosorbents for removing Cr (VI) from aqueous solution, J. Hazard. Mater. 79, 182-190. DOI: 10.1016/j.jhazmat.2008.06.084.[Crossref]
  • 3. Saeiban, M., Klasnja, M. & Skrbiae, B. (2008). Adsorption of copper ions from water by modified agricultural by- products, Desalination 229,170-180. DOI: 10.1016/j.desal.2007.08.017.[Crossref]
  • 4. Franus, M.(2010). Zastosowanie glaukonitu do usuwania śladowych ilości metali ciężkich, Politechnika Lubelska, Lublin, Polska.
  • 5. Tapiero, H., Townsend, D.M., Tew, K.D. (2003) Trace elements in human physiology and pathology: Copper, Biomed. Pharmacother. 57, 386-398. DOI: 10.1016/S0753-3322(03)00012-X.[Crossref]
  • 6. Daniel Kenyon, G., Chen, Di , Bing, Yan, Ping & Dou, Q. (2007). Copper-binding compounds as proteasome inhibitors and apoptosis inducers in human cancer, Front. Bios.12, 135-144.
  • 7. Dhakal, R.P., Ghimire, K.N. & Inoue, K. (2005). Adsorptive separation of heavy metals from aquatic environment using orange waste, Hydrometallurgy 79, 182-190. DOI: 10.1016/j. hydromet.2005.06.007.[Crossref]
  • 8. Biegańska, M. & Cierpiszewski, R. (2010). Wykorzystanie celulozy i kory wierzby Salix americana do adsorpcji miedzi z roztworów wodnych Proceedings of ECOpole 2, 313-317.
  • 9. Dhakal, R.P., Ghimire, K.N., Inoue, K., Yano, M. & Makino, K. (2005). Acidic polysaccharide gels for selective adsorption of lead (II) ion Sep. Purif. Technol. 42, 219-225. DOI: 10.1016/j.seppur.2004.07.016.[Crossref]
  • 10. Król, S. & Nawirska, A. (2003). Usuwanie metali ciężkich na wytłokach owocowych w układach dynamicznych Acta Sci. Polon. Technol. Aliment. 2(1), 21-29.
  • 11. Memon, J.R., Memon, S.Q., Bhanger, M.I., Adel El- -Turki, A., Hallam, K.R. & Allen, G.C. (2009). Banana peel: A green and economical sorbent for the selective removal of Cr (VI) from industrial wastewater, Colloids Surf. B 70, 232-237. DOI: 10.1016/j.colsurfb.2008.12.032.[Crossref]
  • 12. Zvinowanda, C.M., Okonkwoa, J.O., Sekhula, M.M., Agyei, N.M. & Sadiku, R. (2009). Application of maize tassel for the removal of Pb, Se,Sr,U and V from borehole water contaminated with mine wastewater in the presence of alkaline metals, J. Hazard. Mater. 164, 884-891. DOI: 10.1016/j. jhazmat.2008.08.110.[Crossref]
  • 13. Teles de Vasconcelos, L.A. & Gonzalez Beca, C.G. (1999). Chemical activation of pine bark to improve its adsorption capacity of heavy metal ions. Part 1: by acid treatment, Eur. Water Pollut. Contr. 7, 41-46.
  • 14. Martin -Dupont, F., Gloaguen, V., Granet, R., Gulloton, M., Morvan, H. & Krausz, P. (2011). Heavy metal adsorption by crude coniferous barks: a modeling study, J. Environ. Sci. And Health, Part A: Toxic/ Hazardous Substances and Environmental Engineering 2, 1063-1073. DOI: 10.1081/ESE-120004523.[Crossref]
  • 15. Dhakal, R.P., Ghimire, K.N., Inoue, K., Yano, M. & Makino, K. (2005). Acidic polysaccharide gels for selective adsorption of lead (II) ion. Sep. Purif. Technol. 42, 219-225. DOI: 10.1016/j.seppur.2004.07.016.[Crossref]
  • 16. Hamissa, A.M.B., Lodi, A., Seffen, M., Finocchio, E., Botter, R., Converti, A. (2010). Sorption of Cd(II) and Pb(II) from aqueous solution onto Agave americana fibers, Chem. Eng. J. 159, 67-74. DOI: 10.1016/j.cej.2010.02.036.[Crossref]
  • 17. Šćiban, M., Radetić, B., Kevrešan, Ž. & Klašnja, M. (2007) Adsorption of heavy metals from electroplating wastewater by wood sawdust, Bioresour. Technol. 98, 402-409. DOI:10.1016/j. biortech.2005.12.014.[WoS][Crossref]
  • 18. Surmiński, J., Kora. Budowa anatomiczna, skład chemiczny, możliwości wykorzystania, Wyd. AR, Poznań 1995; Eng. Surmiński J. Bark. Anatomic structure, chemical composition, utilization potential, Poznań University of Life Sciences Publishers, Poznań 1995.
  • 19. Biegańska, M. & Cierpiszewski, R. (2011). Utilization of agricultural and industrial wastes for metal removal from aqueous solutions, Pol. J. Chem. Technol., vol. 13(1), 20-22, DOI: 10.2478/v10026-011-0004-y.[Crossref][WoS]
  • 20. Biegańska, M. & Cierpiszewski, R. (2010). Utilization of cellulose and wicker bark of Salix americana for copper adsorption from aqueous solutions, Proceedings of ECOpole, 4, (2), 313-317, access 27.01.2014: http://tchie.uni.opole.pl/ecoproc10b/BieganskaCierpiszewski_PECO10_2.pdf
  • 21. Rypińska, I. & Biegańska, M. (2013). Adsorption of copper(II) and zinc(II) ions on modified Salix Americana wicker bark, Proceedings of ECOpole, 7(2), 703-710, DOI: 10.2429/proc.2013.7(2)092.[Crossref]
  • 22. El-Shafey, E.I. (2010). Removal of Zn(II) and Hg(II) from aqueous solution on a carbonaceous sorbent chemically prepared from rice husk, J. Hazard. Mater., 175, 319-327, DOI: 10.1016/j.jhazmat.2009.10.006. [Crossref][WoS]
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_2478_pjct-2014-0067
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