Element partitioning in combustion- and gasification-based waste-to-energy units

A critical comparison between combustion- and gasification-based waste-to-energy systems needs a deep knowledge of the mass flows of materials and elements inside and throughout the units. The study collected and processed data from several moving grate conventional incinerators and high-temperature shaft gasifiers with direct melting, which are in operation worldwide. A material and substance flow analysis was then developed to systematically assess the flows and stocks of materials and elements within each waste-to-energy unit, by connecting the sources, pathways, and intermediate and final sinks of each species. The patterns of key elements, such as carbon, chloride and heavy metals, in the different solid and gaseous output streams of the two compared processes have been then defined. The combination of partitioning coefficients with the mass balances on atomic species and results of mineralogical characterization from recent literatures was used to estimate a composition of bottom ashes and slags from the two types of waste-to-energy technologies. The results also allow to quantify some of the performance parameters of the units and, in particular, the potential reduction of the amount of solid residues to be sent to final disposal.

► Element partitioning of waste-to-energy units by means of a substance flow analysis.
► A comparison between moving grate combustors and high temperature gasifiers.
► Classification of key elements according to their behavior during WtE processes.
► Slags and metals from waste gasifiers are completely and immediately recyclable.
► Potential reduction of amounts of solid residue to be sent to landfill disposal.