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REMOVAL OF HEAVY METALS IONS FROM WASTEWATER USING ION EXCHANGE
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Vaishnav V., Daga K., Chandra S. and Lal M., Adsorption Studies of Zn (II) ions from Wastewater using Calotropis procera as an Adsorbent, Res.J.Recent.Sci., 1, 2012, pp. 160-165
Eccles, H., Treatment of metal-contaminated wastes: why select a biological process Trends Biotechnol. 17, 1999, pp. 462–465.
Babel, S., Kurniawan, T.A., Cr(VI) removal from synthetic wastewater using coconut shell charcoal and commercial activated carbon modified with oxidizing agents and/or chitosan. Chemosphere 54, 7, 2004, pp. 951–967
Gaikwad R. W., Sapkal V. S. and Sapkal R. S., Ion exchange system design for removal of heavy metals from acid mine drainage wastewater, Acta Montanistica Slovaca Ročník 15, 4, 2010, pp. 298-304
Mier M. V., Callejas R. L. P., Gehr R., Cisneros B. E. J. N. and Alvarez P. J. J. Heavy metal removal with mexican clinoptilolite: multi-component ionic exchange, Wat. Res. . 35, 2, 2001, pp. 373-378
Bai Y., Bartkiewicz B., Removal of Cadmium from Wastewater Using Ion Exchange Resin Amberjet 1200H Columns, Polish J. of Environ. Stud. 18,. 6, 2009, pp. 1191-1195
Xua M., Hadib P., Chen G., McKay G., Removal of cadmium ions from wastewater using innovative electronic waste-derived material, Journal of Hazardous Materials 273, 2014, pp. 118–123
Stoica L., Stanescu A.-M., Constantin C., Bacioiu G., Cadmium(II) Removal from Aqueous Solutions by Biosorption onto Inactive Instant Dry Baker’s Yeast, REV. CHIM. (Bucharest), 65, .7, 2014, pp. 844-847
Erdem E., Karapinar N., Donat R., The removal of heavy metal cations by natural zeolites, Journal of Colloid and Interface Science 280, 2004, pp. 309–314
S. Rengaraj, Kyeong-Ho Yeon, So-Young Kang, Jong-Un Lee, Kyung-Woong Kim, Seung-Hyeon Moon, Studies on adsorptive removal of Co(II), Cr(III) and Ni(II) by IRN77 cation-exchange resin, Journal of Hazardous Materials B92 (2002) 185–
Ignat M., Alexandroaei M., Lungu N. C., The Removal of Zn 2+ Ions from Groundwater using Hydroxyapatite Nanoparticles, REV. CHIM. (Bucharest) 62, 5, 2011, pp. 518-521
Alyüz B., Veli S., Kinetics and equilibrium studies for the removal of nickel and zinc from aqueous solutions by ion exchange resins, Journal of Hazardous Materials 167, 2009, pp. 482–488
Amuda O.S., Giwa A.A., Bello I.A., Removal of heavy metal from industrial wastewater using modified activated coconut shell carbon, Biochemical Engineering Journal 36, 2007, pp. 174–181
Miclean M., Levei E.-A., Senila M., Roman C., Cordo E. , Assessment of Cu, Pb, Zn and Cd Availability to Vegetable Species Grown in the Vicinity of Tailing Deposits from Baia Mare Area, REV. CHIM. (Bucharest), 60, 1, 2009, pp. 1-4 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Vaishnav V., Daga K., Chandra S. and Lal M., Adsorption Studies of Zn (II) ions from Wastewater using Calotropis procera as an Adsorbent, Res.J.Recent.Sci., 1, 2012, pp. 160-165
Eccles, H., Treatment of metal-contaminated wastes: why select a biological process Trends Biotechnol. 17, 1999, pp. 462–465.
Babel, S., Kurniawan, T.A., Cr(VI) removal from synthetic wastewater using coconut shell charcoal and commercial activated carbon modified with oxidizing agents and/or chitosan. Chemosphere 54, 7, 2004, pp. 951–967
Gaikwad R. W., Sapkal V. S. and Sapkal R. S., Ion exchange system design for removal of heavy metals from acid mine drainage wastewater, Acta Montanistica Slovaca Ročník 15, 4, 2010, pp. 298-304
Mier M. V., Callejas R. L. P., Gehr R., Cisneros B. E. J. N. and Alvarez P. J. J. Heavy metal removal with mexican clinoptilolite: multi-component ionic exchange, Wat. Res. . 35, 2, 2001, pp. 373-378
Bai Y., Bartkiewicz B., Removal of Cadmium from Wastewater Using Ion Exchange Resin Amberjet 1200H Columns, Polish J. of Environ. Stud. 18,. 6, 2009, pp. 1191-1195
Xua M., Hadib P., Chen G., McKay G., Removal of cadmium ions from wastewater using innovative electronic waste-derived material, Journal of Hazardous Materials 273, 2014, pp. 118–123
Stoica L., Stanescu A.-M., Constantin C., Bacioiu G., Cadmium(II) Removal from Aqueous Solutions by Biosorption onto Inactive Instant Dry Baker’s Yeast, REV. CHIM. (Bucharest), 65, .7, 2014, pp. 844-847
Erdem E., Karapinar N., Donat R., The removal of heavy metal cations by natural zeolites, Journal of Colloid and Interface Science 280, 2004, pp. 309–314
S. Rengaraj, Kyeong-Ho Yeon, So-Young Kang, Jong-Un Lee, Kyung-Woong Kim, Seung-Hyeon Moon, Studies on adsorptive removal of Co(II), Cr(III) and Ni(II) by IRN77 cation-exchange resin, Journal of Hazardous Materials B92 (2002) 185–
Ignat M., Alexandroaei M., Lungu N. C., The Removal of Zn 2+ Ions from Groundwater using Hydroxyapatite Nanoparticles, REV. CHIM. (Bucharest) 62, 5, 2011, pp. 518-521
Alyüz B., Veli S., Kinetics and equilibrium studies for the removal of nickel and zinc from aqueous solutions by ion exchange resins, Journal of Hazardous Materials 167, 2009, pp. 482–488
Amuda O.S., Giwa A.A., Bello I.A., Removal of heavy metal from industrial wastewater using modified activated coconut shell carbon, Biochemical Engineering Journal 36, 2007, pp. 174–181
Miclean M., Levei E.-A., Senila M., Roman C., Cordo E. , Assessment of Cu, Pb, Zn and Cd Availability to Vegetable Species Grown in the Vicinity of Tailing Deposits from Baia Mare Area, REV. CHIM. (Bucharest), 60, 1, 2009, pp. 1-4 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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