Cerium(IV) oxide–cerium(III) oxide cycle

The cerium(IV) oxide–cerium(III) oxide cycle or CeO₂/Ce₂O₃ cycle is a two step thermochemical process based on cerium(IV) oxide and cerium(III) oxide for hydrogen production.^[1] Advantage of the cerium based cycle is the separation of H₂ and O₂ in two steps which makes high temperature gas separation redundant.

Process description

The thermochemical two-step water splitting process (thermochemical cycle) uses redox systems:

• Dissociation: 2CeO₂ → Ce₂O₃ + 0.5 O₂

• Hydrolysis: Ce₂O₃ + H₂O → 2CeO₂ + H₂

For the first endothermic step, cerium(IV) oxide is thermally dissociated in an inert gas atmosphere at 2,000 °C (3,630 °F) and 100-200 milli-bar into cerium(III) oxide and oxygen. In the second exothermic step cerium(III) oxide reacts at 400 °C (752 °F)–600 °C (1,112 °F) in a fixed bed reactor with water and produces hydrogen and cerium(IV) oxide.

See also

• Copper–chlorine cycle
• Heliostat
• Hybrid sulfur cycle
• Hydrosol-2
• Iron oxide cycle
• Solar thermal energy
• Sulfur–iodine cycle
• Zinc–zinc oxide cycle

References

External links

• Thermochemical hydrogen production from a two-step solar-driven water-splitting cycle based on cerium oxides