Rather than spending millions of dollars to decommission oceanic oil and gas rigs, new research suggests that they could be used to combat the climate crisis.
A new study from the University of Edinburgh says that North Sea oil and gas rigs could be modified to pump vast quantities of carbon dioxide emissions into rocks below the seabed.
Refitting old platforms to store CO2 emissions
The researchers say that refitting old platforms to act as pumping stations for self-contained CO2 storage sites would be 10 times cheaper than decommissioning the structures.
The sites would store emissions generated by natural gas production, and could also be used to lock away CO2 produced by other sources—such as power stations—helping to combat climate change.
Reusing existing platforms as storage sites
The scientists analyzed data from the Beatrice oilfield—15 miles off the north east coast of Scotland. They found that existing platforms could be re-used as storage sites by making minor modifications.
Using a computer model, they worked out that, over a 30-year period, the scheme would be around 10 times cheaper than decommissioning the Beatrice oilfield, which is likely to cost more than £260 million ($316 million).
Large amounts of natural gas and heat energy can still be extracted from saltwater in exhausted oil and gas fields, the team found. The gas can be used as a fuel or burnt on platforms to generate electricity.
Mixing the saltwater from the oil field with CO2 produced by burning the gas enables it to be injected deep underground for permanent safe storage, researchers say.
The scheme would bring down the costs of storing carbon emissions and postpone expensive decommissioning of North Sea oil and gas infrastructure, the team says.
The study, published in International Journal of Greenhouse Gas Control, was completed as part of the University of Edinburgh’s GeoEnergy MSc program.
Lead author Jonathan Scafidi, of the University of Edinburgh’s School of GeoSciences, said: “Removing platforms at large expense is short-sighted. Re-using them to dispose of CO2 in rocks several kilometers beneath the seabed will not only be cheaper, but provides a cost-effective means of cutting the UK’s CO2 emissions to meet the 2050 net-zero target.”
Dr. Stuart Gilfillan, also of the School of GeoSciences, who co-ordinated the study, said: “Our study shows, for the first time, that natural gas production from saltwater can be combined with CO2 storage in the North Sea.
“The potential revenue provided by extending natural gas production in the North Sea could help kick-start a world-leading carbon capture and storage industry in the UK,” he added.