Removal of cadmium from wastewater using ion exchange resin amberjet 1200H columns

• Autorzy: Bai Y. , Bartkiewicz B.
• Języki publikacji: EN

Abstrakty

EN

The aim of this study was to remove Cd2+ by ion-exchange resin Amberjet 1200H in flow condition. The adsorption characteristics of metal onto the resin were accurately described by Freundlich isotherms. The ion exchange of cadmium on resin follows pseudo-second-order kinetics. Ion exchange capacities of the cadmium on the ion exchange resin was studied in metal solution. The capacities of sorption were 3.0 meq Cd/g, and the resin can be generated by HCl.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2009
• Tom: 18
• Numer: 6
• Opis fizyczny: p.1191-1195,fig.,ref.

Twórcy

autor

Bai Y.

• Department of Environmental Engineering, Warsaw University of Technology, Warsaw, Poland

autor

Bartkiewicz B.

• Department of Environmental Engineering, Warsaw University of Technology, Warsaw, Poland

Bibliografia

• 1. CHARERNTANYARAK L., Heavy metals removal by chemical coagulation and precipitation, Water Sci. Technol. 39, (10/11), 135, 1999.
• 2. SAFFAJ N., LOUKIL H., YOUNSSI S.A., ALBIZANE A., BOUHRIA M., PERSIN M., LARBOT A., Filtration of solution containing heavy metals and dyes by means of ultrafiltration membranes deposited on support made of Morrocan clay, Desalination 168, 301, 2004.
• 3. QDIAS H.A., MOUSSA H., Removal of heavy metals from the wasytewater by membrane processes: a comparative study, Desalination 164, 105, 2004.
• 4. ÁLVAREZ-AYUSO E., GARCÍA-SÁNCHEZ A., QUEROL X., Purification of metal electroplating wastewaters using zeolites, Water Research. 37, (20), 4855, 2003.
• 5. CHEN G.H., Electrochemicals technologies in wastewater, Sep. Purif. Technol. 38, (10), 11, 2004.
• 6. DABROWSKI A., HUBICKI Z., PODKOSCIELNY P., ROBENS E., Selective removal of heavy metal ions from waters and industrial wastewaters by ion-exchange method, Chemosphere. 56, 91, 2004.
• 7. PEHLIVAN E., ALTUN T., The study of various parameters affecting the ion exchange of Cu2+, Zn2+, Ni2+, Cd2+, and Pb2+ from aqueous solution on Dowex 50W synthetic resin, Journal of Hazardous Materials 134, (1-3), 30, 149, 2006.
• 8. DEMIRBAS A., PEHLIVAN E., GODE F., ALTUN T., ARSLAN G., Adsorption of Cu(II), Zn(II), Ni(II), Pb(II), and Cd(II) from aqueous solution on Amberlite IR-120 synthetic resin, Journal of Colloid and Interface Science 282, (1), 20 February 1, 2005.
• 9. DABROWSKI A., HUBICKI Z., PODKOSCIELNY P., ROBENS E. Selective removal of heavy metal ions from waters and industrial wastewaters by ion-exchange method. Chemosphere 56, 91, 2004 .
• 10. LEE C.C., Handbook of environmental engineering calculations. pp. 1420, 1999.
• 11. BROWN P.A., BROWN J.M., ALLEN S.J., The application of kudzu as a medium for the adsorption of heavy metals from dilute aqueous wastestream, Bioresource Technology. 78, 195, 2001.
• 12. RENGARAJ S., JOO C.K., KIM Y.H., YI J.H., Kinetics of removal of chromium from water and electronic process wastewater by ion exchange resins: 1200H, 1500H, and IRN97H, Journal of hazardous materials. 102, (2/3), 257, 2003.
• 13. HAITAI J., YANFANG X., JINGJING Z., LIJUN Z., RUNPING H., Pesudo second order kinetic model for the biosorption of lead onto waste yeast: A comparison of linear and non linears methods and error analysis. 4, (4), 2007.