Orsted has identified the 100 MW straw-fired unit at the Avedore Power Station in Copenhagen as the best point source of sustainable CO2 for the next phases of the Green Fuels for Denmark Power-to-X facility in the Greater Copenhagen area which over time is planned to reach a total capacity of 1.3 GW and have a carbon emission abatement potential of 850,000 tonnes yearly. If the project at Avedore Power Station is realized, it could become Orsted's first carbon capture facility. A future final investment decision for the carbon capture project is subject to the realization of the parts of Green Fuels for Denmark that will produce e-methanol and e-kerosene.
Orsted owns and operates Avedore Power Station. The combined heat and power plant consists of two wood pellet-fired units and a straw-fired unit that supply power to the Danish power grid and district heating to the Greater Copenhagen area. Orsted and HOFOR recently announced an agreement that Orsted will offtake the power production from HOFOR's planned 250 MW Aflandshage offshore wind farm for parts of the Green Fuels for Denmark project.
With the agreement to source renewable electricity in place, Orsted has now identified the straw-fired unit at Avedore Power Station as the best point source of sustainable carbon, and will now investigate the possibilities of advancing parts of the project's first phases in order to deliver substantial amounts of sustainable fuels well before the previously planned 2027 operation date of the second phase.
Recently, Green Fuels for Denmark took an important step closer to realization as the project became part of the process of being named an Important Project of Common European Interest (IPCEI) in the EU programme initiated to kick-off the hydrogen economy in the EU.
Green Fuels for Denmark is envisaged to be built in phases, beginning with approximately 10 MW, scaling up corresponding to the supply of electricity to reach 1,300 MW of total electrolysis capacity when fully developed.
While the first phase of Green Fuels for Denmark will exclusively produce hydrogen for heavy-duty road transport, the next phase is planned to combine the production of renewable hydrogen with carbon capture to produce sustainable methanol and e-kerosene for shipping and aviation, respectively.
CO2 from sustainable sources
Provided that a framework is established to promote the development of sustainable fuels, the 100 MW straw-fired unit at Avedore Power Station could provide the amount of CO2 necessary for producing sustainable fuels in the next phases of Green Fuels for Denmark.
Orsted will now start investigating the best way forward to deploy carbon capture technology at the straw-fired unit at Avedore Power Station, including optimizing the electrolysis capacity of the second phase of Green Fuels for Denmark with the supply of renewable electricity. The straw-fired unit is fuelled by locally sourced agricultural by-products converting approx. 130,000 tonnes of straw each year to heat and power. The combination of using straw as fuel and utilizing the surplus heat from both the carbon capture process and the Power-to-X process would result in up to 260 MW district heating, which would lead to both green and price-competitive district heating for the Greater Copenhagen area.
Anders Nordstrom, Vice President and head of Orsted's hydrogen and Power-to-X activities, said:
"If Green Fuels for Denmark is realized, Copenhagen could become a showcase example of how new and existing energy technology can be combined to deliver on the vast European ambitions for sustainable fuels. Denmark can leverage its district heating systems, large sources of sustainable carbon, and massive offshore wind resources to create a new industrial stronghold and supply sustainable fuels to Danish logistics companies that are leading the green transformation of heavy transport. Green Fuels for Denmark is an ideal flagship project to realise this potential, and the agreement with Avedore Power Station to source sustainable CO2 underlines Orsted's commitment to the project."
Ole Thomsen, Senior Vice President, Orsted Bioenergy, says:
"Converting our power stations from fossil fuels to sustainable biomass has been a centre-piece in Orsted's and Denmark's green transformation. Utilizing the potential for carbon capture at Avedore Power Station could potentially be a showcase for even further decarbonization at our power stations. Orsted is currently exploring the potential for carbon capture at some of our other bioenergy plants, which would enable the carbon necessary for Power-to-X production plants to further contribute to the green transformation of our society."
The production of renewable hydrogen and sustainable fuels has a significant potential to reduce carbon emissions from hard-to-abate sectors, such as heavy transport. Sustainable fuels are currently more expensive to produce than fossil-based fuels. To reduce the cost, the production of sustainable fuels must be built out at industrial scale - just as we have seen with renewable energy technologies, such as offshore wind, onshore wind, and solar PV over the past decade. For this to be feasible, industry must join forces with governments to create the right framework that enables private investment in large-scale sustainable fuel production.
About Green Fuels for Denmark
Green Fuels for Denmark is Denmark's most ambitious vision for large-scale production of sustainable fuels and has a decarbonization potential of 850,000 tonnes. Behind the project is a partnership consisting of A.P. Moller - Maersk, DSV Panalpina, DFDS, SAS, Copenhagen Airports, and Orsted.
Nel, Haldor Topsoe, and Everfuel have partnered up on the first phase of Green Fuels for Denmark and on developing the second phase. In addition, COWI is a knowledge partner on the project. The project is backed by Molslinjen, the City of Copenhagen, and the Capital Region of Denmark.
Orsted will continue to pursue opportunities to secure sustainable carbon and green power from additional sources for Green Fuels for Denmark towards the commissioning of the planned energy hub at the Danish island Bornholm.