Adsorption of copper, zinc, and nickel using loesses as adsorbents by column studies

• Autorzy: Punrattanasin P. , Saniem P.
• Języki publikacji: EN

Abstrakty

EN

The adsorption behaviors of copper (Cu), zinc (Zn), and nickel (Ni) on red and yellow loesses in Khon Kaen were evaluated by applying small-scale column studies. Continuous flows with the constant flow rate of the influents were consecutively implemented within three different cycles: adsorption, desorption, and adsorption processes. The results illustrated that the adsorption capabilities between cycles I and III were found to be significantly different. The adsorption process in cycle I appeared to be more effective than cycle III due to the availability of more adsorption site and the incomplete desorption of the metal ions from the adsorbent surface. The experimental and theoretical analyses showed that adsorption capacities were in the order of Cu

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2015
• Tom: 24
• Numer: 3
• Opis fizyczny: p.1267-1275,fig.,ref.

Twórcy

autor

Punrattanasin P.

• Research Center for Environmental and Hazardous Substance Management, Khon Kaen University, 123 Moo 16 Mittapap Road, Nai-Muang, Muang District, Khon Kaen 40002, Thailand

autor

Saniem P.

• Department of Civil Engineering, Faculty of Engineering, Khon Kaen University, 123 Moo 16 Mittapap Road, Nai-Muang, Muang District, Khon Kaen 40002, Thailand

Bibliografia

• 1. BHAUMIK M., SETSHEDI K., MAITY A., ONYANGO M.S. Chromium(VI) removal from water using fixed bed column of polypyrrole/Fe₃O₄ nanocomposite. Sep. Purif. Technol. 110, 11, 2013.
• 2. LAROUS S., MENIAI A.H., LEHOCINE M.B. Experimental study of the removal of copper from aqueous solutions by adsorption using sawdust. Desalination. 185, (1-3), 483, 2005.
• 3. BARRELL D.C. Atomic Spectrophotometer Analysis of Heavy Metals Pollutants in Water. Ann Arbor Science Publishers Inc: Ann Arbor, 1975.
• 4. MEENA A.K., MISHRA G.K., RAI P.K., RAJAGOPAL C., NAGAR P.N. Removal of heavy metal ions from aqueous solutions using carbon aerogel as an adsorbent. J. Hazard. Mater. 122, (1-2), 161, 2005.
• 5. SITTING M. Toxic Metals-Pollution Control and Worker Protection. Noyes Data Corporation: New Jersey, 1976.
• 6. GURGEL L.V.A., PERIN DE MELO J.C., DE LENA J.C., GIL L.F. Adsorption of chromium (VI) ion from aqueous solution by succinylated mercerized cellulose functionalized with quaternary ammonium groups. Bioresour. Technol. 100, (13), 3214, 2009.
• 7. OLGUN A., ATAR N., WANG S. Batch and column studies of phosphate and nitrate adsorption on waste solids containing boron impurity. Chem. Eng. J. 222, 108, 2013.
• 8. PACHECO S., MEDINA M., VALENCIA F., TAPIA J. Removal of Inorganic Mercury from Polluted Water Using Structured Nanoparticles. J. Environ. Eng. 132, (3), 342, 2006.
• 9. PEHLIVAN E., CETIN S. Sorption of Cr(VI) ions on two Lewatit-anion exchange resins and their quantitative determination using UV-visible spectrophotometer. J. Hazard. Mater. 163, (1), 448, 2009.
• 10. OWLAD M., AROUA M.K., DAUD W.A.W., BAROUTIAN S. Removal of hexavalent chromium-contaminated water and wastewater: a review. Water, Air, Soil Pollut. 200, (1-4), 59, 2009.
• 11. XU X., GAO B., TAN X., ZHANG X., YUE Q., WANG Y., LI Q. Nitrate adsorption by stratified wheat straw resin in lab-scale columns. Chem. Eng. J. 226, 1, 2013.
• 12. AL-DEGS Y.S., KHRAISHEH M.A.M., ALLEN S.J., AHMAD M.N. Adsorption characteristics of reactive dyes in columns of activated carbon. J. Hazard. Mater. 165, (1-3), 944, 2009.
• 13. LI W., YUE Q., TU P., MA Z., GAO B., LI J., XU X. Adsorption characteristics of dyes in columns of activated carbon prepared from paper mill sewage sludge. Chem. Eng. J. 178, 197, 2011.
• 14. SANGIUMSAK N., PUNRATTANASIN P. Adsorption Behavior of Heavy Metals on Various Soils. Pol. J. Environ. Stud. 23, (3), 853, 2014.
• 15. PUNRATTANASIN P., SARIEM P. Adsorption of Copper, Zinc, and Nickel Using Loess as Adsorbents. Pol. J. Environ Stud. 24, (3), 1259, 2014.
• 16. HUANGJING S., GASALUCK W. The Stabilization of Loess by Chemical Additives for Road Base. The Electronic Journal of Geotechnical Engineering, 15, 1651, 2010.
• 17. PHIEN-WEJ N., PIENTONG T., BALASUBRAMANIAM A.S., Collapse and strength characteristics of loess in Thailand. Eng. Geol. 32, (1-2), 59, 1992.
• 18. WANG Y., TANG X., CHEN Y., ZHAN L., LI Z., TANG Q. Adsorption behavior and mechanism of Cd(II) on loess soil from China. J. Hazard. Mater. 172, (1), 30, 2009.
• 19. AHMAD A.A., HAMEED B.H. Fixed-bed adsorption of reactive azo dye onto granular activated carbon prepared from waste. J. Hazard. Mater., 175, (1-3), 298, 2010.
• 20. HAN R., WANG Y., ZHAO X., WANG Y., XIE F., CHENG J., TANG M. Adsorption of methylene blue by phoenix tree leaf powder in a fixed-bed column: experiments and prediction of breakthrough curves. Desalination. 245, (1-3), 284, 2009.
• 21. BRUNSON L.R., SABATINI D.A. Practical considerations, column studies and natural organic material competition for fluoride removal with bone char and aluminum amended materials in the Main Ethiopian Rift Valley. Sci. Total Environ. 2013.
• 22. ALBADARIN A.B., MANGWANDI C., AL-MUHTASEB A.H., WALKER G.M., ALLEN S.J., AHMAD M.N.M. Modelling and Fixed Bed Column Adsorption of Cr(VI) onto Orthophosphoric Acid-activated Lignin. Chin. J. Chem. Eng. 20, (3), 469, 2012.
• 23. YOON Y.H., NELSON J.H. Application of gas adsorption kinetics. I a theorical model for respirator catridge service time. Am. Ind. Hyg. Assoc. J. 45, 509, 1984.
• 24. THOMAS H.C. Hererogeneous ion exchange in a flowing system. J. Am. Chem. Soc. 66, 664, 1944.

Identyfikatory

DOI

10.15244/pjoes/32732