
DANIELI CENTRO COMBUSTION SPA
DANIELI CENTRO COMBUSTION SPA
1 Projects, page 1 of 1
Open Access Mandate for Publications and Research data assignment_turned_in Project2023 - 2026Partners:METLEN, OUH, SPEIRA GMBH, Swerim AB, BEFESA ALUMINIO SLU +22 partnersMETLEN,OUH,SPEIRA GMBH,Swerim AB,BEFESA ALUMINIO SLU,GHI HORNOS INDUSTRIALES, SL,ArcelorMittal Sestao,TECNALIA,Polytechnic University of Milan,RHI MAGNESITA GMBH,SARRALLE ENGINEERING SL,CEIT,TME,DANIELI CENTRO COMBUSTION SPA,European Aluminium,BSC,CELSA ARMERINGSSTAL AS,RWTH,NTNU,LUXMET OY,SSAB EMEA AB,LINDE SVERIGE AB,Sick (Germany),ESTEP,NIPPON GASES ESPANA SL,Constellium (France),EGEN BVFunder: European Commission Project Code: 101091456Overall Budget: 24,007,400 EURFunder Contribution: 17,707,700 EURThe main objective of HyInHeat is the integration of hydrogen as fuel for high temperature heating processes in the energy intensive industries. While some of the equipment is already presented as hydrogen-ready, the integration of hydrogen combustion in heating processes still needs adoption and redesign of infrastructure, equipment and the process itself. HyInHeat realizes the implementation of efficient hydrogen combustion systems to decarbonize heating and melting processes of the aluminium and steel sectors, covering almost their complete process chains. To reach this overarching objective within the project, furnace and equipment like burners or measurement and control technology but also infrastructure is redesigned, modified and implemented in eight demonstrators at technical centres and industrial plants. Besides hydrogen-air heating, oxygen-enriched combustion and hydrogen-oxyfuel heating is implemented to boost energy efficiency and to decrease the future hydrogen fuel demand of the processes. This might result in a total redesign of the heating process itself which will be supported by simulation methods enhancing digitalisation along the value chain. Since critical production processes are converted, it is a fundamental requirement to maintain product quality and yield. Priority is also given to the refractory lining to prove sustainability. From an environmental perspective, new concepts for NOx emission measurement in hydrogen combustion off-gas are developed. Material flow analysis and life cycle analysis methods will support the comprehensive cross-sectorial evaluation, which allows the determination of the potential for the implementation of hydrogen heating processes in energy intensive industry. With these activities, HyInHeat contributes to the objectives of decreasing CO2 emission of the processes while increasing energy efficiency in a cost competitive way keeping NOx emission levels and resource efficiency at least at the same level.
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