Upgrading of solid recovered fuel (SRF) by dechlorination and catalytic pyrolysis over nanocrystalline ZSM-5 zeolite

Globally increasing concern related to municipal solid waste generation is encouraging research efforts on developing alternative routes to valorize mixed refused wastes. In this way, catalytic pyrolysis is emerging as an interesting and efficient technology due to its great flexibility in terms of...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2023-10, Vol.339, p.139784-139784, Article 139784
Main Authors: Cueto, J., Pérez-Martin, G., Amodio, L., Paniagua, M., Morales, G., Melero, J.A., Serrano, D.P.
Format: Article
Language:English
Subjects:
Aromatic hydrocarbons
Catalytic pyrolysis
Dechlorination
Solid recovered fuel
ZSM-5
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Summary:Globally increasing concern related to municipal solid waste generation is encouraging research efforts on developing alternative routes to valorize mixed refused wastes. In this way, catalytic pyrolysis is emerging as an interesting and efficient technology due to its great flexibility in terms of feedstock. In the current work, upgrading of a Solid Recovered Fuel (SRF) has been investigated by catalytic pyrolysis over nanocrystalline ZSM-5 zeolite (n-ZSM-5), paying special attention to dechlorination effects due to the high Cl content of the raw waste. Thus, pretreatment of the SRF by water washing and mild thermal processing allows for a significant reduction of the Cl concentration. Regarding the catalytic pyrolysis step, the best conditions correspond with a temperature of 400 °C in the catalyst bed and 0.50 catalyst/SRF mass ratio, which lead to ca. 30 wt% oil yield (rich in aromatic hydrocarbons) together with about 40 wt% gas yield (rich in C3–C4 olefins). Accordingly, these products could find use as raw chemicals or for the production of advanced fuels. In addition, zeolite reutilization has been tested for several cycles, denoting a progressive modification of the products distribution because of coke deposition. However, an almost total recovery of the n-ZSM-5 zeolite catalytic performance is achieved after regeneration by air calcination, affording the production of an oil fraction with a Cl content as low as 40 ppm. [Display omitted] •Catalytic pyrolysis of Solid Recovered Fuel using n-ZSM-5 leads to a highly dechlorinated oil.•Washing and thermal SRF pre-treatments reduce Cl content in the resultant pyrolysis oil.•Pyrolysis products rich in light olefins (gas) and aromatic hydrocarbons (oil).•Catalyst is deactivated during reuse, its performance being recovered by air calcination.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2023.139784