Syngas production by chemical-looping gasification of wheat straw with Fe-based oxygen carrier

Abstract

The iron-based oxygen carriers (OC's), Fe₂O₃/support (Al₂O₃, TiO₂, SiO₂ and ZrO₂), for chemical looping gasification of wheat straw were prepared using impregnation method. The surface morphology, crystal structure, carbon deposition potential, lattice oxygen activity and selectivity of the yielded OCs were examined. The Fe₂O₃/Al₂O₃ OCs at 60% loading has the highest H₂ yield, H₂/CO ratio, gas yield, and carbon conversion amongst the tested OC's. Parametric studies revealed that an optimal loading Fe₂O₃ of 60%, steam-to-biomass ratio of 0.8 and oxygen carrier-to-biomass ratio of 1.0 led to the maximum H₂/CO ratio, gas yield, H₂ + CO ratio, and carbon conversion from the gasified wheat straw. High temperature, up to 950 °C, enhanced the gasification performance. A kinetic network interpreted the noted experimental results. The lattice oxygen provided by the prepared Fe₂O₃/Al₂O₃ oxygen carriers promotes chemical looping gasification efficiencies from wheat straw.

Keywords: Carbon monooxide; Chemical looping gasification; Hydrogen; Iron; Oxygen carrier.