Nitrate transformation in artificial saturated soils made from sand and/or
clay mixed with nitrate-contaminated water was investigated using (1) zero-
valent iron treatment, (2) electrokinetics treatment alone, and (3) electro
kinetics coupled with an iron treatment wall placed near the cathode or ano
de. Approximately 75-98% of the nitrates were transformed using zero-valent
iron to treat the artificial soils. The major products in the zero-valent-
assisted transformation were nitrogen gases (75-81%) and ammonia-nitrogen (
2-18%). Nitrite-nitrogen was less than 1% in all these experiments. With el
ectrokinetics alone, some nitrates were transformed (about 30%), Nitrate tr
ansformation was about 60% with the iron wall placed near the cathode, and
was about 95% with the iron wall placed near the anode. The major products
were nitrogen gases and ammonia. Nitrite-nitrogen was less than 1% in these
runs, Electroosmotic permeability (Ke) variation appeared to be dependent
on the voltage in the reactor, The pH variations over time in electrokineti
cs (control and iron wall near cathode) indicated the movement of a small a
cid front. However, the presence of an iron wall near the anode tended to i
ncrease the pH slightly. The pH variations over time in the electrokinetics
coupled with an iron wall depend on the location of the iron wall. This st
udy demonstrates that electrokinetics coupled with an iron wall near the an
ode is capable of remediating nitrate contamination in low permeability soi
ls.