Journal
JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS
Volume 167, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jaap.2022.105696
Keywords
Biomass pyrolysis; Polyamide pyrolysis; Co-pyrolysis; Bio-oils; Catalytic upgrading
Funding
- European Union [818120]
- H2020 Societal Challenges Programme [818120] Funding Source: H2020 Societal Challenges Programme
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This study investigated the pyrolysis process of pure beech wood and a mixture of beech wood and polyamide-6, and found that the presence of polyamide-6 affected the properties and composition of the bio-oils produced. The use of a catalyst showed beneficial effects on pure beech wood, but these effects were mitigated with the mixture of beech wood and polyamide-6.
Biomass residues and waste can be converted into bioliquids by pyrolysis, which can contribute to both the production of renewable fuels and the recycling of waste. In this paper, the pyrolysis of pure beech wood (BW) and of a mixture of BW + polyamide-6 (PA6), a nitrogen-containing plastic, was investigated to assess the effect of PA6 on the properties of bio-oils, obtained either by thermal pyrolysis or by pyrolysis with ex-situ catalytic treatment of the vapors. The presence of 20 wt% PA6 in the blend affected the pyrolysis products yields and distribution (gases, liquids, chars), but also the composition of the bioliquids. In absence of a catalyst, the production of phenolic compounds (guaiacol, syringol...), sugars, furans decreased significantly with the BW+PA6 blend compared to pure BW, and N-containing compounds derived from PA6 were found in the bio-liquids. When HZSM-5 catalyst was applied for the treatment of vapors, a beneficial effect of the catalyst on the reduction of the sugars and furans content in the bioliquids and on the production of deoxygenated compounds was observed with pure BW. This effect was mitigated with BW+PA6 blends and the formation of fully deox-ygenated compounds was almost totally suppressed, suggesting that the strong catalyst acid sites were poisoned. Caprolactam was by far the main product of PA6 degradation found in the bioliquids, but the N-containing by-products were different depending on the absence or presence of HZSM-5 catalyst. In particular, the formation of 5-cyano-1-pentene in a fairly large proportion was only observed in the presence of the catalyst.
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