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Thermal and catalytic pyrolysis of a real mixture of post-consumer plastic waste: An analysis of the gasoline-range product

Process Safety and Environmental Protection 2022 33 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Rafael R. Solís, M. Calero, M.A. Martín‐Lara Marco F. Paucar-Sánchez, M. Calero, Marco F. Paucar-Sánchez, Marco F. Paucar-Sánchez, Rafael R. Solís, M.A. Martín‐Lara M. Calero, M.A. Martín‐Lara M. Calero, M. Calero, M. Calero, M.A. Martín‐Lara M.A. Martín‐Lara G. Blázquez, M. Calero, M. Calero, M.A. Martín‐Lara M.A. Martín‐Lara Rafael R. Solís, M. Calero, M.A. Martín‐Lara M. Calero, M.A. Martín‐Lara Rafael R. Solís, M. Calero, M. Calero, M. Calero, M. Calero, M. Calero, M. Calero, M.A. Martín‐Lara G. Blázquez, G. Blázquez, G. Blázquez, G. Blázquez, G. Blázquez, M. Calero, M.A. Martín‐Lara Rafael R. Solís, Rafael R. Solís, G. Blázquez, M. Calero, M.A. Martín‐Lara Rafael R. Solís, Rafael R. Solís, M.A. Martín‐Lara M.A. Martín‐Lara G. Blázquez, M. Calero, Rafael R. Solís, M.A. Martín‐Lara G. Blázquez, G. Blázquez, Mario J. Muñoz‐Batista, M.A. Martín‐Lara M.A. Martín‐Lara G. Blázquez, G. Blázquez, M.A. Martín‐Lara Mario J. Muñoz‐Batista, Rafael R. Solís, Rafael R. Solís, Mario J. Muñoz‐Batista, Mario J. Muñoz‐Batista, M. Calero, M. Calero, M. Calero, M.A. Martín‐Lara M.A. Martín‐Lara M. Calero, M.A. Martín‐Lara G. Blázquez, M.A. Martín‐Lara M.A. Martín‐Lara M.A. Martín‐Lara Mario J. Muñoz‐Batista, M. Calero, M. Calero, M.A. Martín‐Lara

Summary

Researchers performed thermal and catalytic pyrolysis on real post-consumer plastic waste mixtures using various catalysts, finding that polymer type strongly influenced gas, liquid, and char yields, and that zeolite catalysts produced gasoline-range hydrocarbon liquids with commercially viable compositions from mixed plastic feedstocks.

Polymers

PP PS

In this work, the thermal and catalytic pyrolysis of different types of plastic waste and a real mixture were investigated in a fixed-bed reactor over different catalysts (CaO, MgO, HY, HZSM-5). Important differences in gas, liquid, and solid yields were found as a function of polymer type. The highest gas yield was obtained with expanded polystyrene (52.3%), and the maximum oil production with high-impact polystyrene (55.5%), while polypropylene film led to the highest char release (17.5%). Regarding the composition of the liquid oil, high-impact polystyrene showed the highest yield of gasoline-range product (426 g per kg of pyrolyzed plastic), mainly composed of aromatics compounds (90%). The addition of catalysts increased the gas yield to the detriment of the oil produced. The effect was more evident for zeolite-type catalysts, i.e., the gas yield raised from 43.3 (non-catalytic) to 51.5% (HZSM-5). Low influence on the oil composition, i.e., gasoline-range product, was detected. This can be explained by the fast deactivation of catalysts because of coke deposition. Only an increase in the fraction of gasoline in liquid oil was observed when low-cost catalysts (CaO and MgO) were used, without significant changes in the composition of this product.

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