Summary
Europe is the world leader in glass making, a highly energy-intensive industry that emits high amounts of CO2. The past century has seen improvements in the production process, but they are now approaching their limits. The objective of GIFFT is to develop a sustainable, hybrid, and biofuel flexible heat production technology and process that can be integrated into industrial glass manufacturing through efficient use of plasma-assisted combustion and gasification systems. An integrated heat production technology and process for glass manufacturing will be developed utilising biomass/waste and excess or cheap renewable electricity for syngas production, what will contribute to Europe’s progress and leadership for bioenergy integration into industrial settings. GIFFT will then develop and validate in an industrially relevant environment a fuel flexible entrained flow gasifier (EFG) with a novel e-gasification function and a new plasma-assisted fuel flexible gas burner for hybrid operation in glass furnaces. This will help diversify feedstock and improve the technological performance as well as cost reduction of bioenergy, ensuring a better circularity and increased use of renewables. The techno-economic feasibility and environmental impact of the technology will also be assessed to confirm that GIFFT contributes to an increased sustainability of biomass combustion and gasification and bioenergy value chains while reducing emissions.
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| Web resources: | https://cordis.europa.eu/project/id/101122257 |
| Start date: | 01-10-2023 |
| End date: | 30-09-2027 |
| Total budget - Public funding: | 4 478 775,00 Euro - 4 478 775,00 Euro |
Cordis data
Original description
Europe is the world leader in glass making, a highly energy-intensive industry that emits high amounts of CO2. The past century has seen improvements in the production process, but they are now approaching their limits. The objective of GIFFT is to develop a sustainable, hybrid, and biofuel flexible heat production technology and process that can be integrated into industrial glass manufacturing through efficient use of plasma-assisted combustion and gasification systems. An integrated heat production technology and process for glass manufacturing will be developed utilising biomass/waste and excess or cheap renewable electricity for syngas production, what will contribute to Europe’s progress and leadership for bioenergy integration into industrial settings. GIFFT will then develop and validate in an industrially relevant environment a fuel flexible entrained flow gasifier (EFG) with a novel e-gasification function and a new plasma-assisted fuel flexible gas burner for hybrid operation in glass furnaces. This will help diversify feedstock and improve the technological performance as well as cost reduction of bioenergy, ensuring a better circularity and increased use of renewables. The techno-economic feasibility and environmental impact of the technology will also be assessed to confirm that GIFFT contributes to an increased sustainability of biomass combustion and gasification and bioenergy value chains while reducing emissions.Status
SIGNEDCall topic
HORIZON-CL5-2022-D3-03-06Update Date
12-03-2024
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Organisations
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| LIETUVOS ENERGETIKOS INSTITUTAS (Coördinator)
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| AB PANEVEZIO STIKLAS
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| Chalmers University of Technology
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| PLASMAAIR AG OXIDATIVE ABGASBEHANDLUNG UND PLASMASYSTEME
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| SCHOTT AG
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| SHEFFIELD HALLAM UNIVERSITY
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| TECHNISCHE UNIVERSITAET MUENCHEN
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| VYTAUTO DIDZIOJO UNIVERSITETAS
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| WIRTSCHAFT UND INFRASTRUKTUR GMBH & CO PLANUNGS KG