28 January 2026
An innovative approach with proven technology for CO₂ reduction
2030 is fast approaching. With it comes the deadline for the climate targets that the Netherlands and Europe have set themselves to slow down global warming. With the Porthos project, the Netherlands is the first country in the European Union to actually do what is necessary: permanently store CO₂. The project is already making great strides towards safe, rapid and large-scale CO₂ reduction, thereby making a concrete contribution to the climate targets. At the same time, the project is a step towards a climate-neutral port of Rotterdam by 2050.
Porthos is the first project in the European Union to actually implement this approach. It is not just a concept: implementation has started, and major steps towards operational CO₂ storage have already been taken. Its uniqueness lies not so much in the technology, which has been proven, but in its fundamentally different approach.
Not an individual project, but public infrastructure
Porthos is not a commercial project by a single market player, but a publicly supported infrastructure with an open-access model. The project was created through intensive public-private partnership: a coalition of companies and governments with a single shared goal: CO₂ reduction and contributing to the achievement of climate targets. It is also striking that the customers for CO₂ capture were contracted well before the start of this CCS project. In the preliminary phase, every industrial party was able to join on equal terms. In international CCS projects, access is often limited to the original initiators.
Whereas many CCS projects abroad have been set up around a single specific industrial installation, Porthos has been designed as an open infrastructure for an entire industrial cluster. The project – a collaboration between the Port of Rotterdam Authority, Gasunie and EBN – transports CO₂ from multiple industrial companies via a single shared network to empty gas fields under the North Sea, where the CO₂ is permanently stored.
Collective infrastructure as an accelerator
This collective approach is a key difference from existing CCS initiatives. In the United Kingdom and the United States, for example, projects are often linked to individual factories or power stations, with customised solutions for each location. Porthos breaks with this model by building a single shared backbone to which companies can connect. The Aramis project, which is currently under development, will in future connect to the infrastructure that Porthos is now constructing.
The fact that companies and organisations can use a collective system creates investment advantages. Porthos is therefore not only a technical project, but also a policy instrument: it lowers the threshold for broad industrial participation in CO₂ reduction. Especially for sectors such as refining, chemicals and hydrogen production — where full electrification is not yet feasible in the short term — CCS via Porthos offers a realistic route to rapidly reducing emissions.
Reuse of existing offshore infrastructure
Another important difference is the decision to reuse existing oil and gas infrastructure. Instead of building everything from scratch, CO₂ is stored in depleted gas fields under the North Sea. After gas extraction, these fields are at low pressure and are repressurised with CO₂.
The platform and wells that have been used to extract natural gas for years have been converted for CO₂ injection. This choice reduces costs and speeds up implementation, but also presented unique technical challenges — for example, in the areas of pressure build-up, material behaviour and well integrity. These have been solved through a specific project design and extensive testing.
Permanent CO₂ storage
Porthos has deliberately opted for permanent CO₂ storage without reuse for additional fossil extraction, as is the case with Enhanced Oil Recovery (EOR). Whereas such applications do provide temporary storage but at the same time stimulate new oil and gas production, Porthos stores CO₂ in empty gas fields without commercial recovery. As a result, the climate benefits are structural and not linked to new fossil activities.
Bridge technology during sustainability transition
At the same time, the project is explicitly positioned as bridge technology: it helps the industry bridge the period until 2030 and 2040 while alternatives such as green hydrogen, electrification and circular raw materials are further scaled up. Storage under the seabed therefore has added value as long as other sustainability techniques are not yet sufficiently scalable and affordable, and fits within Dutch climate policy as a supplementary measure in a broader transition package.
Strategic importance for industry and the economy
The economic stakes are high. Without CCS, part of the energy-intensive industry threatens to leave the Netherlands, resulting in a loss of jobs, knowledge and strategic position. With Porthos, Rotterdam – and with it the Netherlands – will retain an attractive business climate for companies that want to become more sustainable and remain competitive.
Unlike some foreign CCS projects, which are primarily focused on reducing emissions within a single sector, Porthos combines climate goals with industrial policy: the project supports both CO₂ reduction and the preservation of a strong industrial base.
More than technology
This makes Porthos more than just a technical storage project. It is a strategic choice that contributes to climate ambition, economic continuity and international competitiveness. We expect the project to be operational around September this year. The next fifteen years will show how powerful this combination is in practice.
One conclusion is already justified: Porthos is doing it – it is the first project of its kind in the EU to be implemented. Without Porthos, the road to a climate-neutral port of Rotterdam – and a competitive Dutch industry – will be considerably longer.
