MAN Compressor technology to support carbon capture project
Published by Callum O'Reilly,
MAN Energy Solutions in Berlin, Germany, has been awarded a contract for the engineering of three RG compressor trains for a carbon capture, utilisation and storage project in the Netherlands.
The Port of Rotterdam Authority, Energie Beheer Nederland B.V. (EBN) and N.V. Nederlandse Gasunie are jointly developing the ‘Porthos’ (Port of Rotterdam CO2 Transport Hub and Offshore Storage) project, which has been recognised by the European Union as a Project of Common Interest (PCI).
Porthos is planning to store approximately 2.5 million tpy of CO2 under the North Sea. The CO2 will be captured by various companies in the Rotterdam port area – a region that accounts for over 16% of the CO2 emissions in the Netherlands.
“CCUS is a stand-out technology with the potential to decarbonise major industries”, stated Uwe Lauber, CEO of MAN Energy Solutions. “We are excited and proud to be part of the Porthos project and to contribute to a low-carbon future for Europe. This order also proves that we are steadily consolidating our technology leadership position as a provider of state-of-the-art CO2 compression solutions.”
At the end of 2019, the Porthos organisation signed agreements with a number of companies interested in reducing their environmental footprints by capturing their CO2 emissions and feeding them into the collective Porthos pipeline that will run for approximately 30 - 33 km through the Rotterdam port area. The CO2 will then be transported to a platform located approximately 20 km off the Dutch coast. There, the CO2 will be pumped into the exhausted P18 gas fields, which are expected to have a storage capacity of ~37 million t of CO2. Additionally, the Porthos system enables the use of the captured CO2 for other industrial applications, such as within greenhouse horticulture to foster faster plant growth.
MAN Energy Solutions’ scope of work for Porthos covers the engineering of two RG 25-4 and one RG 31-4 type compressor trains with an order for three additional units intended at a later stage. The compressor trains will be located at a compressor station on Maasvlakte, the man-made, western extension to Europoort. There, the CO2 will be pressurised to ~132 bar in order to transport and inject the gas into the fields that are located about 3200 to 3500 m below the North Sea. The compressors can handle up to 285 tph of CO2, depending on how many units are running.
Porthos is expected to store the first CO2 under the North Sea by the end of 2023. The finalisation of MAN’s engineering contract is scheduled for late-summer 2020, whereas the material order is expected for the 2Q21.
Numerous CCUS plants have already employed MAN compression systems, such as the 1999 Dakota Gasification Corp. project where, since the turn of the century, two high-pressure RG compressors have delivered CO2 for the production of synthetic gas from coal in North Dakota, US.
Tamer Bayri – Head of Sales & Execution Industries/Refineries – MAN Energy Solutions, Berlin, explained: “There are now 18 large-scale facilities in commercial operation around the world – eight of which use MAN’s CO2 compression technology. Decades of operation and the proven benefits of our integrally-geared centrifugal-compressor systems have become an important reference attracting international attention.”
Similarly, in 2013, Shell Canada commissioned MAN with the delivery of an RG integrally-geared compressor for use in the world’s first, commercial-scale CCUS project to tackle carbon emissions. Located at an oil-sand operation in Alberta, Canada, the ‘Quest’ project has captured and injected more than one million tons of CO2 underground annually since 2015.
Read the article online at: https://www.hydrocarbonengineering.com/clean-fuels/27052020/man-compressor-technology-to-support-carbon-capture-project/
You might also like
EIA: monthly US propane exports in March 2023 reach a record high
US propane exports reached a record 1.7 million bpd in March 2023. Propane is consumed globally for space heating, and is used as a petrochemical feedstock.