Electrokinetic Remediation Modeling Incorporating Geochemical Effects
نویسندگان
چکیده
Electrokinetic remediation technology is one of the developing technologies that offers great promise for the cleanup of soils contaminated with heavy metals. However, the performance of an electrokinetic remediation system depends on the interaction of a complex set of interrelated system variables and parameters. Many of these interactions were addressed in this study by incorporating geochemical reactions into electrokinetic remediation modeling. A one-dimensional transport model was developed to predict the transport and speciation of heavy metals chromium, nickel, and cadmium in soil during electrokinetic remediation as a function of time and space. The model incorporates: 1 pH-dependent adsorption of contaminants to the soil surface; 2 sensitivity of soil surface potential and electroosmotic flow to the pore water properties; and 3 synergistic effects of multiple chemical species on electrokinetic remediation. The model considers that: 1 Electrical potential in the soil is constant with time; 2 surface complexation reactions are applicable in the highly concentrated clay suspensions; 3 the effect of temperature is negligible; and 4 dissolution of soil constituents is negligible. The predicted pH profiles, electroosmotic flow, and transport of chromium, nickel, and cadmium in kaolin soil during electrokinetic remediation were found to reasonably agree with the bench-scale electrokinetic experimental results. The predicted contaminant speciation and distribution aqueous, adsorbed, and precipitated allow for an understanding of the transport processes and chemical reactions that control electrokinetic remediation. DOI: 10.1061/ ASCE 1090-0241 2008 134:1 91 CE Database subject headings: Electrokinetics; pH; Heavy metals; Kaolin; Adsorption; Remedial action.
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