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Modeling dense-colloid and virus cotransport in three-dimensional porous media

Katzourakis Vasileios E., Chrysikopoulos Constantinos

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URI: http://purl.tuc.gr/dl/dias/A3E56237-97D4-4783-9F72-3B5132C32995
Year 2015
Type of Item Peer-Reviewed Journal Publication
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Bibliographic Citation V. E. Katzourakis and C. V. Chrysikopoulos, “Modeling dense-colloid and virus cotransport in three-dimensional porous media,” J. Contam. Hydrol., vol. 181, pp. 102–113, Oct. 2015, doi: 10.1016/j.jconhyd.2015.05.010. https://doi.org/10.1016/j.jconhyd.2015.05.010
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Summary

A three-dimensional numerical model was developed to investigate the simultaneous transport (cotransport) of dense colloids and viruses in homogeneous, water saturated, porous media with horizontal uniform flow. The dense colloids are assumed to exist in two different phases: suspended in the aqueous phase, and attached reversibly and/or irreversibly onto the solid matrix. The viruses are assumed to exist in four different phases: suspended in aqueous phase, attached onto the solid matrix, attached onto suspended colloids, and attached onto colloids already attached onto the solid matrix. The viruses in each of the four phases are assumed to undergo inactivation with different rates. Moreover, the suspended dense colloids as well as viruses attached onto suspended dense colloids are assumed to exhibit a “restricted” settling velocity as a consequence of the gravitational force; whereas, viruses due to their small sizes and densities are assumed to have negligible “restricted” settling velocity. The governing differential equations were solved numerically with the finite difference schemes, implicitly or explicitly implemented. Model simulations have shown that the presence of dense colloid particles can either enhance or hinder the horizontal transport of viruses, but also can increase the vertical migration of viruses.

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