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Publication
Electro-osmotic transport of nano zero-valent iron in Boom Clay
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| 1.65 MB | Adobe PDF |
Advisor(s)
Abstract(s)
One ofthe many problems thatimpede the successful remediation of soil and groundwater contaminated
with chlorinated hydrocarbons occurs when pollutants diffuse into low permeability zones, and become
difficultly accessible. Remediation by reductive dechlorination using nanoscale zero-valent iron (nZVI)
is possible, but its delivery into contaminated hot spots is difficult using solely hydraulic gradients.
Recently, electrokinetics has been proposed to transport nZVI, with the assumption that both electrophoresis and electro-osmosis are involved. However, so far no study has focused solely on transport
driven by electro-osmotic flow. This driving force could significantly improve field remediation, allowing
nZVI to reach low permeability hotspots.
This work describes the experiments carried out to evaluate if nanoscale zero-valent iron can be transported by electro-osmotic advection in a dense clay using a specifically designed laboratory apparatus.
It explores how working parameters (such as voltage, injection point and pH) influence transport, and
provides an insight into the subsurface behaviour of nanoparticles using micro-XRF.
The results confirm the transport of nZVI by electro-osmotic advection, with an electro-osmotic
conductivity in the range (0.5-1.0)·10−10 m2V−1s−1. The presence of nZVI decreases electro-osmotic conductivities by approximately half and affects geochemical conditions of the system, inducing sharper pH
profiles and enhancing cation exchange in the clay.
Description
Keywords
nZVI Boom Clay Electro-osmosis Micro-XRF
