Milad Rezaee - Msc Student, School of engineering, Kharazmi university, Tehran, Iran
Gh. Asadollahfardi - Associate Professor in Environmental Engineering, School of engineering, Kharazmi university, Tehran, Iran
Mostafa Nasrollahi Gisel - Msc Student, School of engineering, Kharazmi university, Tehran, Iran

A numerical analysis on Electrokinetic (EK) soil remediation process on lead (Pb) was studied. The equation that describes the (EK) is advection-diffusion form of Partial Differential Equation (PDE) that was solved numerically by Finite Difference Method (FDM). The prediction of mathematical model had a good agreement by experimental test for Pb(II) concentration and soil pH along the soil specimen expect near the cathode compartment this phenomena caused by chemical reactions. In mathematical model the constant retardation factor was used and the precipitation reaction and water auto-ionization reaction was neglected. The adsorbed and precipitated Pb(II) was increased when the pH of soil increased and this phenomena occurred near the cathode compartment when acid and base front meet each other and exactly in this area the rate of water auto-ionization increased and the pH prediction had difference by experimental work. In our study was showed that the effect of precipitation and adsorption reaction had a significant effect on removal of contamination and for improve the process for removal cationic contamination the pH of soil specimen soil should keep low.

Pb(II), Electrokinetic, Finite difference, kaolinite