Hydrochars from compost derived from municipal solid waste: Production process optimization and catalytic applications

Catalytic hydrochars were produced by hydrothermal carbonization (HTC) of compost derived from Municipal Solid Waste (MSW). The HTC process was studied through a Design of Experiments to assess the influence of the variables: (i) time (1-5 h), (ii) load of compost (1-4 g in 30 mL) and, (iii) temperature (150-230 degrees C). Total organic carbon (TOC), conductivity and volume variation of the liquid fraction, as well as the mass and carbon content of the solid fraction (hydrochars), were the evaluated responses. Reliable models (R-2 > 0.95 and p-values < 0.05) were fitted to the responses, and the load of compost was found as the most significant variable influencing the process. The Fenton reaction was proposed as an effective treatment of the liquid fraction generated from HTC of compost. A TOC abatement of 73% was obtained after 24 h of reaction under the studied operating conditions (80 degrees C, initial pH 3.0, 100 mg L 1 Fe+2 and two times the stoichiometric amount of H2O2 needed for the complete mineralization of the TOC present in the liquid fraction). The hydrochars produced show high catalytic activity in the decomposition of H2O2, a reaction of interest in a variety of chemical processes, 100% of H2O2 degradation being obtained after 6 h of reaction.

Automated summary

Catalytic hydrochars were produced by hydrothermal carbonization of compost derived from Municipal Solid Waste (MSW). The most significant variable influencing the process was found to be the load of compost, and the Fenton reaction was proposed as an effective treatment of the liquid fraction generated from HTC of compost. Hydrochars produced exhibit high catalytic activity in the decomposition of H2O2, with 100% of H2O2 degradation achieved after 6 hours of reaction.