Synthetic natural gas by hydrothermal gasification of biomass: Selection procedure towards a stable catalyst and its sodium sulfate tolerance

Abstract

Catalyst stability and tolerance towards dissolved inorganics are the main challenges for successful hydrothermal gasification of wet biomass. A continuously operating catalyst test rig was built. Synthetic liquefied wood (phenol, anisole, ethanol, formic and acetic acid) was chosen to represent real biomass. After initial screening in a batch reactor, the most promising skeletal nickel catalysts and Ru/C granular were tested in the new rig, under demanding conditions (high feed concentrations, 10–20 wt%, and high space velocities, 2–34 g organics (g catalyst h) −1) at 30 MPa and around 400 °C. Skeletal nickel catalysts sintered rapidly but Ru/C was stable during 220 h of testing. The inorganic salt tolerance was examined by co-feeding Na 2SO 4. Ru/C deactivated over time; a possible mechanism was identified as irreversible sulfate bonding to Ru III being formed in the redox cycle of biomass gasification.