Pyrolysis-gasification of biomass and Municipal Plastic Waste using transition metal modified catalyst to investigate the effect of contaminants

Pyrolysis and gasification are one of the possible solutions for the recycling of polymer waste. This work focussing to the combined pyrolysis-gasification of different wastes to investigate the effect of raw materials, temperature, and contaminants. To enhance the pyrolysis reactions different transition metal-containing cata-lysts were used: Ni/ZSM-5, Ce/Ni/ZSM-5, La/Ni/ZSM-5, Ce/La/ZSM-5. Different sourced biomasses, municipal plastic wastes and municipal solid waste had been used as raw materials with different amount of contaminants. Regarding biomass, the effect of nitrogen and sulphur were investigated to the product yields and composition, while that nitrogen and chlorine in case municipal plastic waste. The pyrolysis-gasification experiments had been performed in a two zones batch reactor in horizontal layout, where 500 degrees C were used in the pyrolysis step, while the gasification reactions were investigated at 500 and 800 degrees C in the presence of steam. The composition of gases were measured by GC-FID and GC-TCD, while that of the hydrocarbon oils by GC-FID and HPLC. It was found, that the raw material significantly affected the product yields; e.g. in addition hydrocarbon products, aqueous products found only in case of biomass and municipal solid waste, while municipal plastic waste pyrolysis -gasification resulted hydrocarbon gases, hydrocarbon oil and solid char. Significant amount of carbon monox-ide and carbon dioxide can be obtained in case, when raw materials contained cellulose, hemicellulose or lignin in their main structure, however, the concentration of carbon monoxide can be increase at 800 degrees C in case of municipal plastic waste. The highest syngas yield can be found in case of plastic waste. The ratio of hydrogen/ carbon monoxide, that of carbon bon monoxide and carbon dioxide and the structure of aromatic hydrocarbons can be also significantly affected by the raw materials and the contaminants.