Dry CO2 Reforming of Methane

Competitive advantage

• Highly active methane dry reforming catalyst based on cheap active metals (Ni and Co) which can be synthesised rapidly in a single step method, and is readily scalable
• High conversion of methane (up to 90%) is achievable at a relatively low operating temperature of 700°C
• Catalyst support (using SiO2 and Al2O3) modification to enhance catalyst stability

Impact

• Alleviate global warming by conversion of CO2 and methane into synthetic fuels
• Large scale production of active and stable catalyst

Successful applications

• The construction and commissioning of a Flame Spray Pyrolysis reactor to fabricate high surface area metal oxides and catalysts

Capabilities and facilities

• Access to expertise and state-of-the-art facilities for catalyst synthesis for large scale production
• Characterisation and testing of catalyst performance
• In-situ testing to understand conversion mechanisms
• Advanced expertise in the design, development and testing of cost-effective dry reforming catalysts for the conversion of common greenhouse gases (carbon dioxide and methane) into syngas.