AI Article Synopsis
- In Austria, over 50% of high-calorific industrial waste is converted into energy using industrial utility boilers, with a study focused on mixed incineration of in-plant residues and various industrial wastes.
- The research included full-scale trials to assess how different fuels impact the incineration process and the resulting products, including an input-output mass balance for two fluidized bed combustion units.
- The study also evaluated pollutants in off-gas and solid residues, highlighting the importance of factors influencing the decision to thermally utilize specific waste types and providing a strengths and weaknesses analysis for different waste types in relation to industrial boilers.
Article Abstract
In Austria more than 50% of the high-calorific industrial residues and wastes generated are utilized for energy recovery in industrial utility boilers. This study investigated full-scale trials of combined incineration of in-plant residues with various industrial wastes. These trials were carried out in order to learn how the alternatively used fuel influences the incineration process itself as well as the quantity and quality of the various incineration products. The currently used fuel, which consisted of in-plant residues as well as externally acquired waste wood and the refuse-derived fuel (RDF) mixtures used during the full-scale trials are characterized in terms of material composition as well as chemical and physical parameters. An input-output mass balance for the incineration plant (two fluidized bed combustion units, 20 and 30 MW, respectively) has been established, based on the data collected during the full-scale incineration trials. Furthermore, pollutant concentrations in the off-gas as well as the solid incineration residue are reported. It is not only the pollutant content but also a variety of other internal as well as external factors that have to be considered if a company is to decide whether or not to thermally utilize specific waste types. Therefore a strengths and weaknesses profile for several types of waste and the specific industrial boiler is also presented.
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| http://dx.doi.org/10.1177/0734242X05057697 | DOI Listing |
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