Concrete is a highly durable material and, when used effectively, it helps buildings to be extremely energy efficient. Due to global population growth and increasing urbanisation, demand is set to increase. However, cement production is CO2-intensive (8 % of global CO2 emissions). The majority of these CO2 emissions are released directly and unavoidably from the processing of the raw materials – not from the combustion of fossil fuels. The EU-funded LEILAC2 project is piloting new technology that re-engineers the existing process flows by indirectly heating the limestone. Building on the success of the first LEILAC Horizon 2020 project (capturing around 5 % of a typical cement plant’s process CO2 emissions), this project seeks to scale up to around 20 % of a typical cement plant’s process CO2 emissions in a deployable and scalable module
Poroject Lead: CALIX - EUROPE
Region: Europe
Country: Germany
City/Town: Hannover
Timeline Start - End: 2020-04-01 - 2025-03-31
Project Status: Ongoing
Project Budget: 34675725.0 €
Funding source: 46% H2020
Website: https://www.leilac.com/
CO2 Source: Cement and lime industry
CCU Tecnology Category: Capture (Point sources)
Facility stage: Planning
Start TRL: 6
End TRL: 7
CO2 capture/Utilization: Capturing 100.000 t/a CO2
Production Volume:
Product Categories:
- Captured CO2
Specific Product(s):
- CEMEX INNOVATION HOLDING AG
- LHOIST RECHERCHE ET DEVELOPPEMENT SA
- CIMPOR-INDUSTRIA DE CIMENTOS SA
- CALIX LTD
- HAVENBEDRIJF ROTTERDAM NV
- BELGISCH LABORATORIUM VAN ELEKTRICITEITSINDUSTRIE
- INSTITUT ROYAL DES SCIENCES NATURELLES DE BELGIQUE
- POLITECNICO DI MILANO
- BUNDESANSTALT FUER GEOWISSENSCHAFTEN UND ROHSTOFFE
- ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS
- IKN GMBH INGENIEURBURO-KUHLERBAU-NEUSTADT
- HEIDELBERGCEMENT AG
- CALIX - EUROPE