Lucia Tonucci scite author profile

A novel system was investigated, finalized to reduce the impact of highly polluting wastewaters, and based on combined actions of catalytic oxidations and microbial biotechnologies. Olive oil mill wastewaters (COD 10,000-100,000 mg O(2)/L) were oxidized up to 80-90% by stoichiometric amounts of dilute hydrogen peroxide (35%) and in the presence of water soluble iron catalysts, either Fe(II) or Fe(III), at concentrations up to 1% w/w and more, i.e., much larger than those reported for conventional Fenton processes. In the combined action, the mineralization activity of a selected microbial consortium was used to degrade residual volatile and nonvolatile organic compounds into CO(2) and biomass. The results of this search could suggest an improved operational methodology capable to reduce the potential impact of wastewater.

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Lucia Tonucci

One-pot synthesis of lignin-stabilised platinum and palladium nanoparticles and their catalytic behaviour in oxidation and reduction reactions

Deoxydehydration of glycerol to allyl alcohol catalyzed by rhenium derivatives

Palladium nanoparticles, stabilized by lignin, as catalyst for cross-coupling reactions in water

Sonochemistry in non-conventional, green solvents or solvent-free reactions

Improved Combined Chemical and Biological Treatments of Olive Oil Mill Wastewaters

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