Remediation of colloid-facilitated contaminant transport in saturated porous media treated by nanoparticles
Facilitation of contaminant transport in porous media due to the effect of indigenous colloidal fine materials has been widely observed in laboratory and field studies. It has been explained by the increase in the apparent solubility of low soluble contaminants as a result of their adsorption on the...
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Veröffentlicht in: | International journal of environmental science and technology (Tehran) 2014-02, Vol.11 (1), p.207-216 |
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Sprache: | eng |
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Zusammenfassung: | Facilitation of contaminant transport in porous media due to the effect
of indigenous colloidal fine materials has been widely observed in
laboratory and field studies. It has been explained by the increase in
the apparent solubility of low soluble contaminants as a result of
their adsorption on the surface of fine particles. Attachment of
colloidal fine particles onto the rock surface could be a promising
remedy for this challenge. In this experimental study, the effect of
five types of metal oxide nanoparticles, γ-Al2O3, ZnO, CuO, MgO,
and SiO2, on suspension transport was investigated. In several core
flooding tests, different nanofluids were used to saturate the
synthetic porous media. Subsequently, after sufficient soaking time,
the suspension was injected into the treated porous media. Analysis of
the effluent samples' concentration by Turbidimeter apparatus
demonstrated that the presence of nanoparticles on the rock surface
resulted in a significant reduction in fine concentrations in the
effluent samples compared with non-treated media; ZnO and γ- Al2O3
demonstrated the best scenarios among the tests performed in this
study. In order to characterize the surface properties of the treated
porous media, the zeta potential of the surface was measured. Results
showed that the treated porous media acts as a strong adsorbent of fine
particles, which are the main carrier of contaminants in porous media.
These findings were quantitatively confirmed by calculation of the
total energy of interaction between the fine particles and rock surface |
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ISSN: | 1735-1472 1735-2630 |
DOI: | 10.1007/s13762-013-0311-3 |