Inert chemical looping conversion of biochar with iron ore as oxygen carrier: Products conversion kinetics and structural evolution

Abstract

In this study, biochar obtained from pyrolysis of woody shavings at 550 °C was reacted with iron ore in N₂ to investigate its inert chemical looping conversion properties, including the gas products conversion kinetics and structural evolution process. Results found that both the release of CO and CO₂ could be divided into rapid release stage and stable chemical looping reaction stage with activation energies of 17.69 and 45.65 kJ/mol, respectively. During the chemical looping process, the reaction reactivity of biochar reduced gradually with the amorphous char structure turning into fused ring structure and finally into graphite crystal structure. Simultaneously, Fe₂O₃ was reduced into Fe₃O₄, FeO and Fe. This work highlighted the chemical conversion of biochar using natural iron ore as oxygen carrier in inert N₂ atmosphere from the common in-situ gasification chemical looping process using CO₂/H₂O as agent.

Keywords: Biochar; Chemical looping conversion; Kinetic mechanism; Structure evolution.