Methanol steam reforming is a catalytic process that converts liquid methanol and water vapour into hydrogen-rich synthesis gas at temperatures typically between 200 °C and 300 °C. Central to this ...

In particular, the presence or absence of water significantly influences the balance between hydrogen production, carbon monoxide formation, and carbon deposition. Therefore, careful adjustment of the ...

Incorporating gas heated reforming (GHR) technology into autothermal reforming (ATR)-based GTL processes offers combined benefits of significantly higher carbon efficiency and lower capital cost. An ...

At the technical center of the Leibniz Institute for Catalysis (LIKAT) in Rostock, a methanol steam reformer supplies a fuel cell with high-purity hydrogen in continuous operation and at comparatively ...