Preparations are underway for a new onshore carbon dioxide mineral storage facility in Iceland. The terminal will receive carbon dioxide transported from Northern Europe by ship, and the CO2 will then be injected into the bedrock.
‘By receiving CO2 from neighbouring countries for permanent mineral storage, Iceland takes on a pioneering role within Europe,’ says Edda Sif Pind Aradóttir, CEO of Icelandic startup Carbfix.
Preparations for the CO2 mineral storage terminal are underway. The terminal will be based in the bay of Straumsvík, in southwestern Iceland, where there is already an industrial port.
When in operation, the facility will receive carbon emissions from industries and polluters in Northern Europe, shipping the compressed CO2 in cold liquid form.
Storing in bedrock
When reaching the facility, Carbfix will use technology to inject the CO2 into the basaltic bedrock, where it eventually turns into stone.
‘Nature stores vast quantities of CO2 in rocks. The Carbfix process accelerates this natural process by dissolving CO2 into water before injecting it deep underground, where it turns into solid minerals in less than two years. The only feedstock for the process is water, electricity, CO2 and reactive rock formations such as basalts, and the entire on-site operation will run on renewable energy,’ the company says.
The young basaltic rocks hold a storage capacity for CO2 of over 100 kg of CO2 per 1 m3 of rock.
Several other countries already have ongoing projects in large-scale carbon storage. However, while projects such as Norway’s Longboat and Netherland’s Porthos aim to inject the CO2 emissions under the seabed, the Carbfix project differs in that operations will be on land. In fact, the Coda Terminal will be the first large-scale geological storage project in Europe that is carried out onshore.
The preparation phase will begin in 2021 with engineering and permitting processes. Drilling of the first wells is to start in 2022, with the aim of starting operations in 2025 and reaching full-scale operations by 2030.
At full scale, the Coda Terminal is expected to be able to provide an annual storage of three million tonnes of CO2. The Terminal will also be able to store CO2 from local industries, as well as CO2 captured directly from the air.
Total investment is estimated in the range of €190-220 million, including operating expenses and capital expenditures.