C4U is a holistic interdisciplinary project addressing all the essential elements required for the optimal integration of CO2 capture in the iron & steel industry as part of the CCUS chain. This spans demonstration of two highly efficient CO2 capture technologies at TRL7 designed for optimal integration into an iron & steel plant and detailed consideration of the safety, environmental, societal, policy and business aspects for successful incorporation into the North Sea Port (NSP) CCUS cluster.
C4U accords with the strong consensus to intensify R&D on promising breakthrough CO2 capture technologies leading to needed step-change impacts on reducing CO2 emissions in the iron & steel industry. C4U contributes to de-risking of new technologies, while recognising the needs of sequential and stepwise approaches for decreasing the cost of capturing CO2 from diverse streams in integrated steel mills, together with further needs of common shared infrastructure in a CCUS cluster. C4U helps to secure jobs in the iron & steel and ancillary industries in Europe, ultimately reducing the potential for carbon leakage. For assessment of public and political acceptance and societal readiness, C4U involves an exploration of framing CCUS in a Just Transition, for preserving employment and economic possibilities while addressing the energy transition. Through direct industrial stakeholder involvement, C4U enhances innovation capacity, market opportunities, competitiveness and growth at the European level.
C4U aims to achieve four overall objectives:
• Elevate two CO2 capture technologies, known as DISPLACE and CASOH, from TRL5 to TRL7 & design for optimal integration in the steel industry
• Analyse the economic, environmental and business impacts and opportunities of applying CCUS in a large-scale (TRL9) steel plant in the NSP industrial cluster
• Develop and test approaches with stakeholders and end-users to assess and advance societal readiness for CCUS in industrial clusters
• Ensure that the project’s results are exploited to the full extent and disseminated to relevant stakeholders to facilitate the large-scale rollout of CCUS