HeidelbergCement has announced its intention to upgrade its plant on the Swedish island of Gotland to become a carbon-neutral cement plant. The installation at the Slite plant of HeidelbergCement’s subsidiary Cementa will be scaled to capture up to 1.8 million tpy of CO2, which corresponds to the plant’s total emissions. Additionally, the use of biobased fuels in the cement production at Slite will be increased in line with the Group’s commitment to significantly raise the share of biomass in the fuel mix. The full-scale capturing of the plant’s CO2 emissions is targeted by 2030.
The project supports Sweden’s ambitious carbon emission reduction goals. The carbon capture facility will be built next to the existing plant in Slite, where three quarters of the cement used for concrete production in Sweden is currently produced. The authorisation processes and the construction period are estimated to take just under 10 years. A feasibility study, which has already been launched, will address critical issues related to technology selection, environmental impact, legal issues, financing, logistics, and energy supply. The captured CO2 will be safely transported to a permanent storage site offshore, several kilometres down in bedrock.
HeidelbergCement is currently building the world’s first full-scale installation for carbon capture at the Brevik cement plant in Norway, capturing 400 000 tpy or 50% of the plant’s emissions from 2024 onwards. “Based on the positive collaboration with the Norwegian government and other partners at our site in Brevik, we have now chosen to significantly ramp up our ambitions for a carbon capture installation in Sweden that is four times larger,” said Giv Brantenberg, General Manager of HeidelbergCement Northern Europe. The planning for the plant in Slite will benefit significantly from the experience gained at Brevik.
Read the article online at: https://www.worldcement.com/europe-cis/03062021/heidelbergcement-to-build-carbon-neutral-cement-plant/
You might also like
Together, the partners will explore the development and deployment of an innovative modular clean energy solution that will convert waste heat into clean and affordable electricity.