A model to evaluate internal acid neutralization resistance to soil extraction

Environmental Modelling and Software

Volumn 23, Issue 5, 2008, Pages 663-669

  Ma, Jun ^a   Jennings, Aaron A ^b  

^a Conestoga Rovers and Associates Inc ^*  (United States)

^b Case Western Reserve University   (United States)

Author keywords

Acid neutralizing capacity; Heavy metal contamination; Sequestering; Soil extractions

Indexed keywords

CONTAMINATION; HEAVY METALS; IMPURITIES; MATHEMATICAL MODELS;

ACID NEUTRALIZING CAPACITY; HEAVY METAL CONTAMINATION; SEQUESTERING; SOIL EXTRACTIONS;

SOIL MECHANICS;

ACID NEUTRALIZATION; BROWNFIELD SITE; DATA QUALITY; ECOLOGICAL MODELING; ELEMENT MOBILITY; ENVIRONMENTAL IMPACT; EXTRACTION METHOD; HEAVY METAL; INDUSTRIAL AGGLOMERATION; POLLUTANT TRANSPORT; SEQUESTRATION (CHEMISTRY); SOIL AGGREGATE; SOIL ANALYSIS; SOIL POLLUTION;

CLEVELAND [OHIO]; NORTH AMERICA; OHIO; UNITED STATES;

EID: 38149049800     PISSN: 13648152     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.envsoft.2007.08.004     Document Type: Article

References (31)

1. Al-Merey R., Al-Masri M.S., and Bozou R. Cold ultrasonic acid extraction of copper, lead and zinc from soil samples. Analytica Chimica Acta 452 (2002) 134-148
2. Azzam R., and Oby W. The utilization of electrokinetics in geotechnical and environmental engineering. Transport in Porous Media 42 (2001) 293-314
3. Cline S.R., and Reed B.E. Lead removal from soils via bench-scale soils washing technologies. Journal of Environmental Engineering 121 10 (1995) 700-705
4. Colletta T.F., Bruell C.J., Ryan D.K., and Inyang H.I. Cation-enhanced removal of lead from kaolinite by electrokinetics. Journal of Environmental Engineering 123 12 (1997) 1227-1233
5. Davidson C.M., Thomas R.P., McVey S.E., Perala R., Littlejohn D., and Ure A.M. Evaluation of a sequential extraction procedure for the speciation of heavy metals in sediments. Analytica Chimica Acta 291 (1994) 277-286
6. Hansen H.K., Ottosen L.M., Kliem B.K., and Villumsen A. Electrodialytic remediation of soils polluted with Cu, Cr, Hg, Pb, and Zn. Journal of Chemical Technology and Biotechnology 70 (1997) 67-73
7. Holmgren G.G.S., Meyer M.W., Chaney R.L., and Daniels R.B. Cadmium, lead, zinc, copper and nickel in agricultural soils of the United States of America. Journal of Environmental Quality 22 (1993) 335-348
8. Jennings, A.A., Ma, J. A model to evaluate a soil's bulk solid phase resistance to extraction analysis. Environmental Modelling and Software (in press). (ENSO2011)
9. Jennings A.A., and Petersen E.J. Variability of North American regulatory guidance for heavy metal contamination of residential soil. Journal of Environmental Engineering and Science 5 (2006) 485-506
10. Jennings A.A., Cox A.N., Hise S.J., and Petersen E.J. Heavy metal contamination in the brownfield soils of Cleveland. Soil &Sediment Contamination 11 (2002) 719-750
11. Jennings, A.A., Ma, J., Petersen, E.J., 2002b. Heavy metal contamination and burden sequestering in Cleveland area brownfield soils. Proceedings of the Joint CSCE/ASCE Environmental Engineering Conference, July 21-24, an International Perspective on Environmental Engineering. Niagara Falls, Canada.
12. Jennings, A.A., Ma, J., Deng, X., Petersen, E., 2003. Characterizing sequestered 'old' contamination in brownfield soils, 11th Annual Great Lakes Geotechnical/Geoenvironmental Conference (GLGGC), Advances in Characterizing and Engineering Problem Soils, May 23. West Lafayette, IN.
13. Kim K.-H., and Kim S.-H. Heavy metal pollution of agricultural soils in central regions of Korea. Water Air & Soil Pollution 111 (1999) 109-122
14. Kim S.-O., Moon S.-H., and Kim K.-W. Removal of heavy metals from soils using enhanced electrokinetic soil processing. Water Air & Soil Pollution 125 (2001) 259-272
15. Kowalewska Z., Bulska E., and Hulanicki A. The effect of sample preparation on metal determination in soil by FAAS. Fresenius Journal of Analytical Chemistry 362 (1998) 125-129
16. Kramer J.R., Booty W.G., and Stroes S. Acid neutralizing capacity of fine soil fractions. Atmospheric Pollutants in Natural Waters (1981), Ann Arbor Science Publishers, Ann Arbor, MI 327-337
17. Lee H.-H., and Yang J.-W. A new method to control electolytes pH by circulation system in electrokinetic soil remediation. Journal of Hazardous Materials B77 (2000) 227-240
18. Lin C.-W. Mapping soil lead and remediation needs in contaminated soils. Environmental Geochemistry and Health 24 (2002) 23-33
19. Lide D.R. CRC Handbook of Chemistry and Physics. third electronic ed (2003), CRC Press
20. Linde M., Bengtsson H., and Oborn I. Concentrations and pools of heavy metals in urban soils in Stockholm, Sweden. Water Air & Soil Pollution: Focus 1 (2001) 83-101
21. Ma J. Risk assessment and sequestered contamination evaluation for legacy heavy metal contamination in Cleveland area brownfields. Dissertation, Department of Civil Engineering (2005), Case Western Reserve University, Cleveland, OH
22. Murray P., Ge Y., and Hendershot W.H. Evaluating three trace metal contaminated sites: a field and laboratory investigation. Environmental Pollution 107 (2000) 127-135
23. Pfaff, L.M., Jennings, A.A., 1996. Analysis of lead contamination in brownfield soils. In-situ remediation of contaminated sites, the 4th Great Lakes Geotechnological, Geoenvironmental Conference, May 17. University of Illinois at Chicago, pp. 107-122.
24. Pichtel J., Sawyer H.T., and Czarnowska K. Spatial and temporal distribution of metals in soils in Warsaw, Poland. Environmental Pollution 98 2 (1997) 169-174
25. Puppala S.K., Alshawabkeh A.N., Acar Y.B., Gale R.J., and Bricka M. Enhanced electrokinetic remediation of high sorption capacity soil. Journal of Hazardous Materials 55 (1997) 203-220
26. Rodsand T., Acar Y.B., and Breedveld G. Electrokinetic extraction of lead from spiked Norwegian marine clay. Geotechnical Special Publications IV 46/2 (1995) 1518-1534
27. Sauvé S., McBride M.B., and Hendershot W.H. Speciation of lead in contaminated soil. Environmental Pollution 98 2 (1997) 149-155
28. USEPA. Method 3050B. Acid digestion of sediments, sludges and soils. Test Methods for Evaluating Solid Waste, Physical/Chemical Methods (SW 846) (1996), US Environmental Protection Agency, Washington, DC
29. USEPA. Method 3051A. Microwave assisted acid digestion of sediments, sludges, soils and oils (revised Jan. 1998). Test Methods for Evaluating Solid Waste, Physical/Chemical Methods (SW 846) (1998), US Environmental Protection Agency, Washington, DC
30. Vengris T., Binkieme R., and Sveikauskaite A. Electrokinetic remediation of lead-, zinc- and cadmium-contaminated soil. Journal of Chemical Technology and Biotechnology 76 (2001) 1165-1170
31. Yang G.C.C., and Lin S.-L. Removal of lead from a silt loam soil by electrokinetic remediation. Journal of Hazardous Materials 58 (1998) 285-299