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MODIFIED CLAY AS SOIL AMENDMENT FOR REMEDIATION: STUDIES OF LEACHING AND SORPTION KINETICS
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Lee S.M. & Tiwari D. Organo and inorgano-organo-modified clays in the remediation of aqueous solutions: An overview. Applied Clay Science, 59-60, pp 84- 102, 2012.
Directive 2008/1/EC of the European Parliament and of the Council of 15 January 2008 concerning integrated pollution prevention and control. Official Journal of the European Union, L 24, pp 8-29, 2008. 14th SGEM GeoConference on Science and Technologies in Geology, Exploration and Mining
Wu Y.H., Wen Y.J., Zhou J.X., Cao J.L., Jin,Y.P. & Wu Y.Y. Comparative and competitive adsorption of Cr(VI), As(III), and Ni(II) onto coconut charcoal. Environmental Science & Pollution Research International, 20/4, pp 2210-2219, 2013.
Mohamed M.M. Heat capacities, phase transitions and structural properties of cation-exchanged H -mordenite zeolites. Thermochimica Acta, 372/1-2, pp 75-83, 2001.
Bhattacharyya K.G. & Gupta S.S. Adsorption of a few heavy metals on natural and modified kaolinite and montmorillonite: A review. Advances in Colloid & Interface Science, 140/2, pp 114-131, 2008.
Wang X.J., Liang X., Wang Y., Wang X., Liu M., Yin D.Q., Xia S.Q., Zhao J.F. & Zhang Y.L. Adsorption of copper(II) onto activated carbons from sewage sludge by microwave-induced phosphoric acid and zinc chloride activation. Desalination, 278/1-3, pp 231-237, 2011.
Querol X., Alastuey A., Moreno N., Alvarez-Ayuso E., Garcia-Sanchez A., Cama J., Ayora C. & Simon M. Immobilization of heavy metals in polluted soils by the addition of zeolite material synthesized from coal fly ash. Chemosphere, 62/2, pp 171-180, 2006.
Dixon J.B. Roles of clay and oxide minerals in soils. In: Environmental Interactions of Clays. Parker A. & Rae J.E. (eds.), Springer-Verlag, pp 37-53, 1998.
Ming D.W. & Mumpton F.A. Zeolites in soils. In: Minerals in Soil Environments Dixon J.B. & Weed S.B. (eds.), Soil Science Society of America, pp 873-911, 1987.
De Boodt M.F. Application of sorption theory to eliminate h eavy metals from waste waters and contaminated soils In: Interactions at the Soil Colloid-Solution Interface Bolt G.H., de Boodt M.F., Hayes M.H.B., McBride M.B. & de Strooper E.B.A. (eds.), Springer-Verlag, pp 293-320, 1991.
Parks J.W. & Hamilton A.L. Accelerating recovery of mercury-contaminated Wabigoon/English River system. Hydrobiologia, 149, pp 159-188, 1987.
Jackson T.A. The biogeochemical and ecological significance of interactions. In: Environmental Interactions of Clays . Parker A. & Rae J.E. . (eds.), Springer-Verlag, pp 93-206, 1998.
Burlakovs J., Karasa J. & Klavins M. Devonian clay modification for the improvement of heavy metal sorption properties. Scientific Journal of Riga Technical University, Series: Environmental & Climate Technologies, 3, pp 22-26, 2013c.
Burlakovs J., Karklina A., Karpovics A. & Klavins M. Different type clay amendments for lead immobilization in contaminated soils. Scientific Journal of Riga Technical University, Series: Material Science and Applied Chemistry , 29, pp 137-141, 2013d.
Burlakovs J., Klavins M. & Karklina A. Remediation of soil contamination with heavy metals by using zeolite and humic acid additives. Latvian Journal of Chemistry, 51/4, pp 336-341, 2012b.
Burlakovs J. & Vircavs M. Heavy metal remediation technologies in Latvia: Possible applications and preliminary case study results. Ecological Chemistry & Engineering S, 19/4, pp 533-547, 2012.
Lee S.M. & Tiwari D. Organo and inorgano-organo-modified clays in the remediation of aqueous solutions: An overview. Applied Clay Science, 59-60, pp 84- 102, 2012.
Directive 2008/1/EC of the European Parliament and of the Council of 15 January 2008 concerning integrated pollution prevention and control. Official Journal of the European Union, L 24, pp 8-29, 2008. 14th SGEM GeoConference on Science and Technologies in Geology, Exploration and Mining
Wu Y.H., Wen Y.J., Zhou J.X., Cao J.L., Jin,Y.P. & Wu Y.Y. Comparative and competitive adsorption of Cr(VI), As(III), and Ni(II) onto coconut charcoal. Environmental Science & Pollution Research International, 20/4, pp 2210-2219, 2013.
Mohamed M.M. Heat capacities, phase transitions and structural properties of cation-exchanged H -mordenite zeolites. Thermochimica Acta, 372/1-2, pp 75-83, 2001.
Bhattacharyya K.G. & Gupta S.S. Adsorption of a few heavy metals on natural and modified kaolinite and montmorillonite: A review. Advances in Colloid & Interface Science, 140/2, pp 114-131, 2008.
Wang X.J., Liang X., Wang Y., Wang X., Liu M., Yin D.Q., Xia S.Q., Zhao J.F. & Zhang Y.L. Adsorption of copper(II) onto activated carbons from sewage sludge by microwave-induced phosphoric acid and zinc chloride activation. Desalination, 278/1-3, pp 231-237, 2011.
Querol X., Alastuey A., Moreno N., Alvarez-Ayuso E., Garcia-Sanchez A., Cama J., Ayora C. & Simon M. Immobilization of heavy metals in polluted soils by the addition of zeolite material synthesized from coal fly ash. Chemosphere, 62/2, pp 171-180, 2006.
Dixon J.B. Roles of clay and oxide minerals in soils. In: Environmental Interactions of Clays. Parker A. & Rae J.E. (eds.), Springer-Verlag, pp 37-53, 1998.
Ming D.W. & Mumpton F.A. Zeolites in soils. In: Minerals in Soil Environments Dixon J.B. & Weed S.B. (eds.), Soil Science Society of America, pp 873-911, 1987.
De Boodt M.F. Application of sorption theory to eliminate h eavy metals from waste waters and contaminated soils In: Interactions at the Soil Colloid-Solution Interface Bolt G.H., de Boodt M.F., Hayes M.H.B., McBride M.B. & de Strooper E.B.A. (eds.), Springer-Verlag, pp 293-320, 1991.
Parks J.W. & Hamilton A.L. Accelerating recovery of mercury-contaminated Wabigoon/English River system. Hydrobiologia, 149, pp 159-188, 1987.
Jackson T.A. The biogeochemical and ecological significance of interactions. In: Environmental Interactions of Clays . Parker A. & Rae J.E. . (eds.), Springer-Verlag, pp 93-206, 1998.
Burlakovs J., Karasa J. & Klavins M. Devonian clay modification for the improvement of heavy metal sorption properties. Scientific Journal of Riga Technical University, Series: Environmental & Climate Technologies, 3, pp 22-26, 2013c.
Burlakovs J., Karklina A., Karpovics A. & Klavins M. Different type clay amendments for lead immobilization in contaminated soils. Scientific Journal of Riga Technical University, Series: Material Science and Applied Chemistry , 29, pp 137-141, 2013d.
Burlakovs J., Klavins M. & Karklina A. Remediation of soil contamination with heavy metals by using zeolite and humic acid additives. Latvian Journal of Chemistry, 51/4, pp 336-341, 2012b.
Burlakovs J. & Vircavs M. Heavy metal remediation technologies in Latvia: Possible applications and preliminary case study results. Ecological Chemistry & Engineering S, 19/4, pp 533-547, 2012.
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