Case studies
Illustrative examples on decarbonization measures, costs and regulations
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- Zero-Emission Vessel
Ship-Based Carbon Capture Techno-Economic Guide
This blog provides techno-economic guidance for the use of SBCC onboard your vessel, including operational impact, logistics and of course the costs for implementation. Key points include the following; SBCC is applicable to virtually all ship types, sizes and fuel type but LNG is preferred. SBCC produces 2 m3 of CO2 per day per MW. SBCC costs €115 per ton CO2, is a CAPEX dominated technology and costs €175k per MW.
Equinor moves ahead with CCS
Following a historic vote in parliament on December 15th 2020, the Norwegian Government announced its funding decision for the ‘Northern Lights’ CO2 transport and storage project. The project aims to create a carbon capture and storage hub in Norway, open to third parties. It will be the first ever cross-border, open-source CO2 transport and storage infrastructure network and offers European industrial emitters the opportunity to store their CO2 safely and permanently underground.
World’s Largest Direct Air Capture Facility to Capture CO2 Under Development
The facility from 1PointFive and Carbon Engineering will capture CO2 directly from the air and store it safely, permanently and securely deep underground in geological formations.
Northern Lights CCS
According to Equinor, carbon capture and storage will be vital to reach the global climate goals of the Paris Agreement. They are very pleased that the Northern Lights partners and leading European companies have taken the first steps to realize a European CO2 transport and storage system! In simple terms, carbon capture and storage deals with removing CO2 from emission sources and storing it permanently underground, so that it is not released to the atmosphere.