What question did this study set out to answer?

To investigate the efficacy of microwave-catalyzed pyrolysis on automotive shredder residue nonmetallic components.

March 15, 2026

Microwave Catalytic Pyrolysis of Nonmetallic Automotive Shredder Residue

Key Points

To investigate the efficacy of microwave-catalyzed pyrolysis on automotive shredder residue nonmetallic components.
Utilized FeO, zeolite, and HZSM-5 catalysts in pyrolysis processes through TG/DTG analysis.
Employed KAS and Flynn–Wall–Ozawa kinetic methods for analysis.
Characterized gaseous products using gas chromatography.
Average activation energy for decomposition was 200.45 kJ/mol.
At 540°C, FeO displayed superior performance; at 620°C, HZSM-5 yielded 47.81% combustible gases.
Optimal conditions achieved with HZSM-5 at 780°C, resulting in highest yield of high-quality gases and aromatics.

Abstract

ABSTRACT This study investigates the microwave‐catalyzed pyrolysis of automotive shredder residue (ASR) nonmetallic components using FeO, zeolite, and HZSM‐5 catalysts through TG/DTG analysis combined with KAS and Flynn–Wall–Ozawa (FWO) kinetic methods. The products are characterized by gas chromatography. The average activation energy for the main decomposition stage was 200.45 kJ/mol. Catalyst performance was temperature‐dependent: FeO showed better comprehensive performance at 540°C; at 620°C, the HZSM‐5 catalyst yielded 47.81% high‐quality combustible gases; and at 780°C, HZSM‐5 further enhanced selectivity toward H 2 and aromatic hydrocarbons. Optimal conditions were identified as HZSM‐5 catalyst, pyrolysis temperature of 780°C, and heating rate of 15°C/min, under which the highest yield of high‐quality gases and aromatics was achieved, demonstrating the best overall performance.

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Cite This Study

Cao et al. (Sun,) studied this question.

synapsesocial.com/papers/69b606d583145bc643d1d216 https://doi.org/https://doi.org/10.1002/ceat.70190

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