Maria Philippou scite author profile

The adsorption of the U-232 radionuclide by biochar fibers in the sub-picomolar concentration range has been investigated in laboratory aqueous solutions and seawater samples. The adsorption efficiency (Kd values and % relative removal) of untreated and oxidized biochar samples towards U-232 has been investigated as a function of pH, adsorbent mass, ionic strength and temperature by means of batch-type experiments. According to the experimental data, the solution pH determines to a large degree the adsorption efficiency, and adsorbent mass and surface oxidation lead to significantly higher Kd values. The ionic strength and temperature effect indicate that the adsorption is based on the formation of inner-sphere complexes, and is an endothermic and entropy-driven process (ΔH° and ΔS° > 0), respectively. Regarding the sorption kinetics, the diffusion of U-232 from the solution to the biochar surface seems to be the rate-determining step. The application of biochar-based adsorbents to treat radioactively (U-232) contaminated waters reveals that these materials are very effective adsorbents, even in the sub-picomolar concentration range.

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Cessation of Newtonian circular and plane Couette flows with wall slip and non-zero slip yield stress

Philippou

Damianou

Miscouridou

et al. 2016

Meccanica

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Development lengths in Newtonian Poiseuille flows with wall slip

Kountouriotis

Philippou

Georgiou

2016

Applied Mathematics and Computation

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Viscoplastic flow development in tubes and channels with wall slip

Philippou

Kountouriotis

Georgiou

2016

Journal of Non-Newtonian Fluid Mechanics

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Maria Philippou

Cessation of viscoplastic Poiseuille flow with wall slip

Uranium Isotope (U-232) Removal from Waters by Biochar Fibers: An Adsorption Study in the Sub-Picomolar Concentration Range

Cessation of Newtonian circular and plane Couette flows with wall slip and non-zero slip yield stress

Development lengths in Newtonian Poiseuille flows with wall slip

Viscoplastic flow development in tubes and channels with wall slip

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