Significance of metal exchange in EDDS-flushing column experiments

Chemosphere

Volumn 83, Issue 1, 2011, Pages 7-13

  Lo, Irene M C ^a   Tsang, Daniel C W ^b   Yip, Theo C M ^a   Wang, Fei ^a   Zhang, Weihua ^c  

^a HONG KONG UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Hong Kong)

^b UNIVERSITY OF CANTERBURY   (New Zealand)

^c SUN YAT SEN UNIVERSITY   (China)

Author keywords

Chelating agent; Extraction efficiency; In situ flushing; Metal re adsorption; Soil remediation

Indexed keywords

ADSORPTION; AMINES; BIODEGRADABILITY; CHELATION; CONTAMINATION; ETHYLENE; HEAVY METALS; REMEDIATION; SOIL CONSERVATION; SOIL POLLUTION; SOILS;

CHELATING AGENT; COLUMN EXPERIMENTS; CONTAMINATED SOILS; EXTRACTION EFFICIENCIES; NATURAL ENVIRONMENTS; SITU FLUSHING; SOIL CONTAMINATION; SOIL REMEDIATION;

EXTRACTION;

CHELATING AGENT; COPPER; ETHYLENE DIAMINE DISUCCINIC ACID; LEAD; NICKEL; SUCCINIC ACID DERIVATIVE; UNCLASSIFIED DRUG; ZINC;

ADSORPTION; BIODEGRADATION; CHELATING AGENT; FLUSHING; METAL; PH; SOIL POLLUTION; SOIL REMEDIATION; SOIL SURFACE;

ADSORPTION; ARTICLE; BIODEGRADABILITY; BIOREMEDIATION; CHELATION; CHEMICAL REACTION; CONTROLLED STUDY; ELUTION; METAL EXCHANGE REACTION; METAL EXTRACTION; PH; SOIL POLLUTION;

EID: 79951849614     PISSN: 00456535     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.chemosphere.2011.01.040     Document Type: Article

References (36)

1. Bargar J.R., Persson P., Brown G.E. Outer-sphere adsorption of Pb(II)EDTA on goethite. Geochim. Cosmochim. Acta 1999, 63:2957-2969.
2. Fangueiro D., Bermond A., Santos E., Carapuca H., Duarte A. Kinetic approach to heavy metal mobilization assessment in sediments: choose of kinetics equations and models to achieve maximum information. Talanta 2005, 66:844-857.
3. Finzgar N., Zumer A., Lestan D. Heap leaching of Cu contaminated soil with [S,S]-EDDS in a closed process loop. J. Hazard. Mater. 2006, B135:418-422.
4. Friedly J.C., Kent D.B., Davis J.A. Simulation of the mobility of metal-EDTA complexes in groundwater: the influence of contaminant metals. Environ. Sci. Technol. 2002, 36:355-363.
5. Hauser L., Tandy S., Schulin R., Nowack B. Column extraction of heavy metals from soils using the biodegradable chelating agent EDDS. Environ. Sci. Technol. 2005, 39:6819-6824.
6. Jalali M., Khanlari Z.V. Effect of aging process on the fractionation of heavy metals in some calcareous soils of Iran. Geoderma 2008, 143:26-40.
7. Kedziorek M.A.M., Dupuy A., Bourg A.C.M., Compere F. Leaching of Cd and Pb from a polluted soil during the percolation of EDTA: laboratory column experiments modeled with a non-equilibrium solubilization step. Environ. Sci. Technol. 1998, 32:1609-1614.
8. Kent D.B., Davis J.A., Joye J.L., Curtis G.P. Influence of variable chemical conditions on EDTA-enhanced transport of metal ions in mildly acidic groundwater. Environ. Pollut. 2008, 153:44-52.
9. Komarek M., Vanek A., Szakova J., Balik J., Chrastny V. Interactions of EDDS with Fe- and Al-(hydr)oxides. Chemosphere 2009, 77:87-93.
10. Koopmans G.F., Schenkeveld W.D.C., Song J., Luo Y., Japenga J., Temminghoff E.J.M. Influence of EDDS on metal speciation in soil extracts: measurement and mechanistic multicomponent modeling. Environ. Sci. Technol. 2008, 42:1123-1130.
11. Meers E., Tack F.M.G., Verloo M.G. Degradability of ethylenediaminedisuccinic acid (EDDS) in metal contaminated soils: implications for its use soil remediation. Chemosphere 2008, 70:358-363.
12. Noren K., Loring J.S., Bargar J.R., Persson P. Adsorption mechanisms of EDTA at the water-iron oxide interface: implications for dissolution. J. Phys. Chem. C 2009, 113:7762-7771.
13. Nowack B. Environmental chemistry of aminopolycarboxylate chelating agents. Environ. Sci. Technol. 2002, 36:4009-4016.
14. Nowack B., VanBriesen J.M. Biogeochemistry of Chelating Agents 2005, American Chemical Society, Washington, DC.
15. Nowack B., Kari F.G., Kruger H.G. The remobilization of metals from iron oxides and sediments by metal-EDTA complexes. Water, Air, Soil Pollut. 2001, 125:243-257.
16. Nowack B., Schulin R., Robinson B.H. Critical assessment of chelant-enhanced metal phytoextraction. Environ. Sci. Technol. 2006, 40:5225-5232.
17. Polettini A., Pomi R., Rolle E., Ceremigna D. A kinetic study of chelant-assisted remediation of contaminated dredged sediment. J. Hazard. Mater. 2006, B137:1458-1465.
18. Polettini A., Pomi R., Calcagnoli G. Assisted washing for heavy metal and metalloid removal from contaminated dredged materials. Water, Air, Soil Pollut. 2009, 196:183-198.
19. Stumm W. Reactivity at the mineral-water interface: dissolution and inhibition. Colloids Surf., A 1997, 120:143-166.
20. Tandy S., Bossart K., Mueller R., Ritschel J., Hauser L., Schulin R., Nowack B. Extraction of heavy metals from soils using biodegradable chelating agents. Environ. Sci. Technol. 2004, 38:937-944.
21. Tandy S., Schulin R., Nowack B. Uptake of metals during chelant-assisted phytoextraction with EDDS related to the solubilized metal concentration. Environ. Sci. Technol. 2006, 40:2753-2758.
22. Tipping E. Cation Binding by Humic Substances 2002, Cambridge University Press, New York.
23. Tsang D.C.W., Lo I.M.C. Competitive Cu and Cd sorption and transport in soils: a combined batch kinetics, column and sequential extraction study. Environ. Sci. Technol. 2006, 40:6655-6661.
24. Tsang D.C.W., Lo I.M.C., Chan K.L. Modeling the transport of metals with rate-limited EDTA-promoted extraction and dissolution during EDTA-flushing of copper-contaminated soils. Environ. Sci. Technol. 2007, 41:3660-3667.
25. Tsang D.C.W., Zhang W., Lo I.M.C. Copper extraction effectiveness and soil dissolution issues of EDTA-flushing of artificially contaminated soils. Chemosphere 2007, 68:234-243.
26. Tsang D.C.W., Zhang W.H., Lo I.M.C. Modeling cadmium transport in soils using sequential extraction, batch and miscible displacement experiments. Soil Sci. Soc. Am. J. 2007, 71:674-681.
27. Tsang D.C.W., Yip T.C.M., Lo I.M.C. Kinetic interactions of EDDS with soils: 2. Metal-EDDS complexes in uncontaminated and metal-contaminated soils. Environ. Sci. Technol. 2009, 43:837-842.
28. Vandevivere P.C., Hammes F., Verstraete W., Feijtel T., Schowanek D. Metal decontamination of soil, sediment, and sewage sludge by means of transition metal chelant [S,S]-EDDS. J. Environ. Eng. 2001, 127:802-811.
29. Wasay S.A., Barrington S., Tokunagal S., Prasher S. Kinetics of heavy metal desorption from three soils using citric acid, tartaric acid, and EDTA. J. Environ. Eng. Sci. 2007, 6:611-622.
30. Yan D.Y.S., Yui M.M.T., Yip T.C.M., Tsang D.C.W., Lo I.M.C. Influence of EDDS-to-metal molar ratio, solution pH, and soil-to-solution ratio on metal extraction under EDDS deficiency. J. Hazard. Mater. 2010, 178:890-894.
31. Yip T.C.M., Tsang D.C.W., Ng K.T.W., Lo I.M.C. Empirical modeling of heavy metal extraction by EDDS from single-metal and multi-metal contaminated soils. Chemosphere 2009, 74:301-307.
32. Yip T.C.M., Tsang D.C.W., Ng K.T.W., Lo I.M.C. Kinetic interactions of EDDS with soils: 1. Metal resorption and competition under EDDS deficiency. Environ. Sci. Technol. 2009, 43:831-836.
33. Yip T.C.M., Tsang D.C.W., Lo I.M.C. Interactions of chelating agents with Pb-goethite at the solid-liquid interface: Pb extraction and re-adsorption. Chemosphere 2010, 81:415-421.
34. Yip T.C.M., Yan D.Y.S., Yui M.M.T., Tsang D.C.W., Lo I.M.C. Heavy metal extraction from an artificially contaminated sandy soil under EDDS deficiency: significance of humic acid and chelant mixture. Chemosphere 2010, 80:416-421.
35. Zhang W., Tsang D.C.W., Lo I.M.C. Removal of MDF and Pb from contaminated soils by EDTA- and SDS-enhanced washing. Chemosphere 2007, 66:2025-2034.
36. Zhang W., Huang H., Tan F., Wang H., Qiu R. Influence of EDTA washing on the species and mobility of heavy metals residual in soils. J. Hazard. Mater. 2010, 173:369-376.