Illustration: Business Wire via DNV (click photo for high res)

CCS is the process of trapping carbon dioxide produced by burning fossil fuels or other chemical or biological process and storing it in such a way that it is unable to affect the atmosphere. Illustration: Business Wire via DNV (click photo for high res)

Maritime carbon capture and storage (CCS) “feasible and can reduce emissions by 65%”

OSLO and LONDON – Classification society Det Norske Veritas (DNV) and Process Systems Enterprise Ltd. (PSE), a global provider of advanced process modeling technology, said Tuesday that they have successfully developed a concept design for on-board chemical CO2 capture during their latest Maritime CCS (carbon capture and storage) research and development project.

The system consists of a chemical absorption plant that separates CO2 from flue gases, a liquefaction unit where the captured CO2 is compressed and condensed using a refrigerant and two storage tanks where the liquid CO2 product is temporarily stored until discharge into transmission and storage infrastructures at the next suitable port. The results show that the concept is technically feasible and capable of reducing ship CO2 emissions by up to 65%. For a VLCC tanker, this could correspond to capturing more than 70,000 tonnes of CO2 per year, transforming them from emissions to a tradable product.

“In response to more stringent environmental regulations and complex market conditions, we see an increased demand for innovative solutions towards higher efficiency and greener operations,” says Dr. Nikolaos Kakalis, Head of DNV Research & Innovation Greece. “Our R&D activities, such as the carbon capture initiative which is completely new in the field of maritime transportation, pave the future towards next-generation solutions for achieving more energy-efficient, environmentally friendly and sustainable maritime transportation”.

Prof. Costas Pantelides, Managing Director of PSE, says “This has been a challenging design problem with tight constraints. Applying a model-based engineering approach has been key to exploring the process decision space rapidly and effectively, and developing technically feasible and economically viable solutions.”

Maritime CO2 emissions are estimated at over 1000 million tonnes per year, or 3% of total emissions, and are expected to reach 2000 to 3000m tonnes by 2050. The UK government has included maritime emissions in the reduction targets set by the Climate Change Bill, and the International Maritime Organisation is expected to drive a reduction in emissions from international shipping. Because ship emissions are concentrated – unlike other forms of transport – the potential to capture CO2 at source has been the key focus of the project.

The Maritime CCS project was jointly financed by the two partners, the UK’s Technology Strategy Board and the Research Council of Norway under the EUROSTARS initiative. The project took into account the unique challenges posed by the maritime environment – constant movement, limited space and access to utilities, stringent safety requirements and the need for energy efficiency.

Via DNV

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