World first cement CCS-facility at Norcem Brevik in Norway.

The Brevik CCS (Carbon Capture and Storage) project will be the world's first full-scale cement capture facility. 

- An annual reduction of CO2 emissions by over 400.000 ton

- A technology that can be used at other cement plants worldwide

- The carbon capture facility will be fully operational by 2024

Brevik CCS has its own website. Click here to get there! 

Look to Norcem

Look to Norcem

Look to Norcem

What If... CCS

What if - ccs

What if.... CCS?


Per Brevik

Direktør for alternativt brensel og bærekraft

HeidelbergCement Norway AS Lilleakerveien 2A
0283 Oslo

Tor Halvorsrud


HeidelbergCement Norway AS Lilleakerveien 2A
0283 Oslo

Illustration of the carbon capture facility at Norcem Brevik

Om Brevik CCS

Carbon capture is the very process of removing CO2 from large emission sources such as gas, coal, cement and refineries. The purpose of carbon capture is to limit CO2 emissions into the atmosphere by capturing it, and then storing it safely, for instance in underground geological formations. The whole process of capturing, transporting and storing CO2 is often referred to as carbon capture and storage, or CCS.

The process at Norcem Brevik cement plant will use a mixture of water and organic amine solvents to absorb the CO2. This process can be applied on emissions from various sources, from gas, coal, cement, refineries, and waste-to-energy through to hydrogen and other process industries.

Episode 1

Første episode i vår serie om Brevik CCS

Brevik CCS - Episode 1

Episode 2

Episode 2 i vår serie om Brevik CCS

Brevik CCS - Episode 2

Episode 3

Demolition is over, construction starts

Brevik CCS -Episode 3

Press and media assets

Tor Gautestad

Senior Manager Project and Process / Brevik CCS

Norcem AS Setrevegen 2
3950 Brevik

Karin Comstedt Webb

Head of Environmental, Social and Governance, HeidelbergCement NE Northern Europe

Images and illustrations for download

Norcem logo

Brevik CCS logo

HeidelbergCement logo

Partner technology

Aker Carbon Capture is our carbon capture technology partner

About Aker Carbon Capture

Equinor and Northern Lights transport and store CO2

More about Northern Lights

Gassnova - the government CCS project manager

Learn more about Gassnova here


What is carbon capture, and what is the purpose of it?

Carbon Capture and Storage (CCS) is a technology that can capture up to 90% of the carbon dioxide (CO2) emissions produced from the use of fossil fuels in electricity generation and industrial processes, preventing the carbon dioxide from entering the atmosphere, and storing it permanently underground.

What can CCS be used for?

CCS will be crucial for decarbonising industries such as cement and steel where production itself results in large CO2 emissions, as well as other industries

How can CCS help fight climate change ?

Carbon capture and storage (CCS) is one of the few technological solutions that can contribute to a significant reduction in emissions from industrial operations based on coal or gas power, keeping CO2 out of the atmosphere that would otherwise worsen climate change.

What lies behind the concept "CCS"?

CCS is short for Carbon Capture and Storage. CCS targets reducing the emission of CO2 to the athmosphere. CO2 is captured from a point of emission, then transported og permanently stored in underground geological formations.

How important is CCS for reaching the goals of the Paris-agreement ?

The Paris Agreement central aim is to strengthen the global response to the threat of climate change by keeping a global temperature rise well below 2 degrees Celsius above pre-industrial levels, and to pursue efforts to limit the temperature increase even further to 1.5 degrees Celsius. Additionally, the agreement aims to strengthen the ability of countries to deal with the impacts of climate change. Without CCS, both th IPCC and IEA point out that reaching these goals will be way more difficult and expensive. 

Is it safe to store CO2 below sea level?

It is absolutely safe to store large amounts of CO₂ on the Norwegian continental shelf. Equinor has thorough experience from storing CO2 in the North Sea. CO2 is injected into deep underground rock formations, usually at depths of one kilometre or more. This has been done at both the Sleipner-field (1 mill tons CO2 annually since 1996) and the Snow White-field (appr 700.000 tons CO2 annually since 2007). Surveillance programs show that there is no CO2-leakage from the storing.

Can the Norcem-technology be exported to other countries?

Yes. Through the building of the full scale CCS-project at Norcem Brevik, all parties involved accumulate knowledge which may be useful for future facilities. 

Is it neccessary to store the captured CO2 underground in the North Sea; why not use it for other purposes ?

CO2 can and will be used in other industrial procedures. However, this will often just postpone the emissions. Due to the large amount of CO2 which is now released into the atmosphere, CO2-storage is needed in the foreseeable future. 

Are the similar facilities elsewhere in the world ?

According to the Global CCS Institute (GCCSI), there are currently 19 large scale projects in operation and four new projects under construction with a total capacity close to 40 million tonnes of CO₂. However, Norcem Brevik is the first cement plant in the world with fullscale CCS. 

Why does Norway spend so much money on CCS?

Norway wants to contribute to reducing the global greenhouse gas emissions. The government therefore wants to contribute to developing CCS technology that can be shared internationally. In order to achieve the required amount of CCS projects needed, the technology has to be further developed and costs have to come down. Currently CCS is too costly for commercial industry to tackle the development on their own. Norway has good capabilities in technology development and we have strong experience in safely storing CO2 underground. This puts us in a good position to contribute to the development of CCS globally.