Co-pyrolysis of waste paper and tyre: Exploration of interaction of volatiles of varied origin and the influence on product evolution.

Waste paper and tyre are typical solid wastes with distinct composition. Their pyrolysis could generate varied volatiles that may interact with each other or with resulting char. In this study, the co-pyrolysis of waste paper and tyre was investigated at 400 and 600 ºC, with the focus on understanding the interaction of the volatiles on evolution of the products. The results show that the interaction of the volatiles at 400 ºC forms more gaseous products like CO and CO 2 , while the interactions of the heavier organics at 600 ºC forms more oil (49.3% vs 42.6%). The interaction of the volatiles also affects the generation of sulfur-containing organics and diminishes the paper-derived aldehydes and ketones or the heavy organics with the π-conjugated structures in the oil. In addition, the volatile-char interactions exist and form the char of higher carbon content through promoting carbonization and deoxygenation reactions, generating char of higher thermal stability and higher hydrophilicity via tailoring functional group, pore structures and morphologies of the char. [Display omitted] • Interaction of volatiles in co-pyrolysis of waste paper and tyre exists. • Co-pyrolysis promotes formation of gases at 400 ℃ while oil at 600 ℃ via condensation. • Paper-derived intermediates capture CH x * /H* radicals, minimizing CH 4 /H 2 formation. • Volatiles interactions interfere formation of S-containing organics and aldehydes/ketones. • Co-pyrolysis affects composition, stability, functionality and morphologies of char. [ABSTRACT FROM AUTHOR]