It is widely accepted that CCUS (Carbon Capture, transport, Utilization, and Storage) is required to address
the emission from hard-to-abate sectors in the net-zero society. It is a key technology enabler to decarbonize
a wide range of industrial applications. In many regions of Europe, offshore storage provides a viable option
due to a large variety of technological factors (such as availability of fitting geological formations) but also
societal factors, as it is often easier to accept offshore storage rather than local storage onshore.
Traditional solutions for offshore storage comprise onshore terminals and hubs and pipelines or ships
connecting these to subsurface templates or offshore hubs. Ships are considered solely as the transport
solution for gathering the CO2 at ports and delivering it to the above-mentioned hubs. CTS will investigate the
possibility to use ships as injection vessels (DSI). The project builds on previous projects such as ACT ECO-BASE,
H2020 Strategy CCUS and the existing collaboration between NORCE and NEMO Maritime in the NEMO
IPN project supported by RCN.
The DSI for permanent CO2 storage aims to provide a low-cost, scalable, and flexible solution that can be quickly rolled out. Using ships for injection also helps to decrease the visual impacts of permanent offshore injection facilities in the areas relying on coastal and marine tourism, and reduces conflicts with other marine activities, such as fisheries, since it avoids the need for permanent large-scale infrastructures (such as offshore platforms).
DSI has the potential to transform and boost CCUS in Europe and globally due to:
• decentralization and, hence, more flexible and effective matching emitters and storages;
• faster deployment and circumventing limitations of pipeline transport;
• enhancing CCUS adoption by connecting smaller emitters and regions lacking storage capacity;
• contributing to the creation of a pan-European market for on-demand CO2 storage.
In 2024 CTS team worked on updating Strategy CCS methodology to include DSI technology and to build the scenarios for four geographical regions:
- North Sea (Norway and Denmark)
- Østersjøen (Estonia, Lithuania, Latvia)
- North Atlantics (Portugal)
- Black Sea (Romania og Ukraina)
I 2025 prosjektet vil fokusere på Teknisk-økonomisk og livssyklus analyse av scenarioene.
It is widely accepted that CCUS (Carbon Capture, transport, Utilization, and Storage) is required to address
the emission from hard-to-abate sectors in the net-zero society. It is a key technology enabler to decarbonize
a wide range of industrial applications. In many regions of Europe, offshore storage provides a viable option
due to a large variety of technological factors (such as availability of fitting geological formations) but also
societal factors, as it is often easier to accept offshore storage rather than local storage onshore.
Traditional solutions for offshore storage comprise onshore terminals and hubs and pipelines or ships
connecting these to subsurface templates or offshore hubs. Ships are considered solely as the transport
solution for gathering the CO2 at ports and delivering it to the above-mentioned hubs. CTS will investigate the
possibility to use ships as injection vessels (DSI). The project builds on previous projects such as ACT ECO-BASE,
H2020 Strategy CCUS and the existing collaboration between NORCE and NEMO Maritime in the NEMO
IPN project supported by RCN.
The DSI for permanent CO2 storage aims to provide a low-cost, scalable, and flexible solution that can be quickly rolled out. Using ships for injection also helps to decrease the visual impacts of permanent offshore injection facilities in the areas relying on coastal and marine tourism, and reduces conflicts with other marine activities, such as fisheries, since it avoids the need for permanent large-scale infrastructures (such as offshore platforms).
DSI has the potential to transform and boost CCUS in Europe and globally due to:
• decentralization and, hence, more flexible and effective matching emitters and storages;
• faster deployment and circumventing limitations of pipeline transport;
• enhancing CCUS adoption by connecting smaller emitters and regions lacking storage capacity;
• contributing to the creation of a pan-European market for on-demand CO2 storage.