The largest carbon capture and storage (CCS) research partnership in the UK has grown even bigger as the University of Strathclyde joins the group, bringing world-leading expertise in areas such as carbon dioxide (CO2) transport and environmental impact analysis.
The integration of a greater proportion of renewable energy, compounded by the rise in small scale distributed generation, is making it increasingly difficult to balance demand and supply of electricity without adequate energy storage facilities. However, the effective deployment of these solutions at any particular location will require an understanding of the local energy system at the time. Conversion between energy vectors will also be required not just to meet storage needs, but also to allow major shifts from fossil fuels to low carbon energy in applications like heat and transport. Hydrogen is an energy vector that is particularly versatile from this viewpoint.
Development of a very sound expertise on CO2 transportation infrastructure
Identification and understanding of uncertainties during integration of CO2 capture, compression, injection and reservoir units together with CO2 transportation system
Provide industry and academia with the required technical knowhow in this context
