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Publication
Influence of electrolyte and voltage on the direct current enhanced transport of iron nanoparticles in clay
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Advisor(s)
Abstract(s)
Zero valent iron nanoparticles (nZVI) transport for soil and groundwater remediation is slowed down or
halted by aggregation or fast depletion in the soil pores. Direct electric current can enhance the transport
of nZVI in low permeability soils. However operational factors, including pH, oxidation–reduction potential
(ORP), voltage and ionic strength of the electrolyte can play an important role in the treatment
effectiveness. Experiments were conducted to enhance polymer coated nZVI mobility in a model low permeability soil medium (kaolin clay) using low direct current. Different electrolytes of varying ionic
strengths and initial pH and high nZVI concentrations were applied. Results showed that the nZVI transport
is enhanced by direct current, even considering concentrations typical of field application that favor
nanoparticle aggregation. However, the factors considered (pH, ORP, voltage and electrolyte) failed to
explain the iron concentration variation. The electrolyte and its ionic strength proved to be significant
for pH and ORP measured during the experiments, and therefore will affect aggregation and fast oxidation
of the particles.
Description
Keywords
Zero valent iron nanoparticles (nZVI) Oxidation–reduction potential (ORP) Electrokinetics (EK) Electrolyte Voltage
Citation
Publisher
Elsevier