Effect of activation conditions and iron loading content on the catalytic cracking of toluene by biochar

Biochar (BC) is a catalyst carrier with a porous structure and low production cost. Herein, a Fe-loaded BC catalyst was prepared by impregnation and calcination, and use toluene to determine the removal efficiency of the catalyst. When the Fe impregnation solution mass fraction was 4%, the removal efficiency for the Fe-loaded BC catalyst was 94.1%. The amount of H2 produced by toluene catalysis is 963.22 ml, which is about three times the total amount of H2 produced by toluene self-pyrolysis and catalyst selfgasification. The effects of steam activation conditions and Fe impregnation mass fraction on the microstructure of BC were studied. The results show that the activation temperature and time can increase the BET surface area. A high concentration of steam volume and impregnation solution decreases the BET surface area. The characterizations of the catalyst before and after the toluene removal experiment shows that C-O bond plays a vital role in the removal process and micropores of BC preferentially adsorb toluene. The adsorption mechanism on BC mainly depends on n-p interaction and pore filling. The electrostatic attraction and p-p interaction on Fe-loaded BC were enhanced. Loading treatment introduces lattice oxygen and leads to increased oxygen vacancies. (c) 2022 Elsevier Ltd. All rights reserved.

Automated summary

This study investigates the efficiency of Fe-loaded biochar catalyst in toluene removal and explores the effects of steam activation conditions and Fe impregnation mass fraction on the microstructure of biochar. The results show that Fe-loaded biochar catalyst has high removal efficiency and H2 production, making it a promising catalyst for applications.