Daniel Alejandro Glatstein scite author profile

The hydraulic conductivity defines the displacement of liquids inside porous media and affects the fate and transport of contaminants in the environment. In this research the influence of microbial growth and decay inside soil pores on hydraulic conductivity is analysed. Long-term tests performed in silt-bentonite mixtures permeated with distilled water and a nutrients solution demonstrated that hydraulic conductivity of compacted silt-bentonite samples decreases with time of permeation as a bioclogging mechanism develops. The injection of antibiotics and antifungals in the specimens produces a rebound in the hydraulic conductivity associated with the decay of microbial activity. These results show that biomediated reactions can be used to control the flow rate through compacted soil liners.

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Daniel Alejandro Glatstein

Long term hydraulic conductivity of compacted soils permeated with landfill leachate

Influence of pH and ionic strength on Cd, Cu and Pb removal from water by adsorption in Na-bentonite

Mineral phases and carbon content in weathered fly ashes

Hydraulic conductivity of compacted soils controlled by microbial activity

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