Hense, PeterPeterHenseReh, KatharinaKatharinaRehFranke, MatthiasMatthiasFrankeAigner, JonathanJonathanAignerMayer, DominikDominikMayerHornung, AndreasAndreasHornungContin, AndreaAndreaContin2022-03-132022-03-132015https://publica.fraunhofer.de/handle/publica/390583Waste Electrical and Electronic Equipment (WEEE) is one of the fastest growing waste streams worldwide. This waste stream contains a number of economically relevant base, precious and high-tech metals. However, only a limited number of these metals can be recovered by mechanical treatment. The pyrolysis technology allows a baring and an accumulation of metals from WEEE-fractions without oxidation as well as the generation of high calorific gases and liquids for energetic utilization in a combined heat and power plant. Recovered metals can be used in pyro-metallurgical recycling processes to recover secondary raw materials. In this article, results from pyrolysis batch tests with residuals from a treatment of WEEE are presented. In an ecological assessment the environmental performance of the pyrolysis process is compared to a treatment in a municipal waste incinerator. The results of the ecological assessment clearly evidence that a thermo-chemical treatment of residuals from a WEEE treatment presents a promising option concerning environmental aspects of global warming potential, acidification potential and abiotic resource depletion potential.en620conference paper