EEETHOS | Energy Efficiency and Electrification Technologies for Heat Flow Optimization in Process Industries

Summary
Industrial process heating accounts for 16 % of total final energy demand and 13 % of the greenhouse gas emissions in the EU. Decarbonizing industrial process heating through electrification and increased energy efficiency is a key measure for reaching the climate targets in 2030, reducing the dependency on fossil fuels, strengthening the exploitation of local renewable energy sources and increasing the competitiveness of the European industry. While there are highly efficient technologies, such as industrial heat pumps, available for temperatures below 150 °C, there is a clear demand for novel technologies for processes with heat demands at higher temperatures.
EEETHOS will fill this technology gap by developing key-enabling technologies for energy efficient, flexible and decarbonized process heating, and demonstrating them in five installations at industrial end-users at a TRL of 7. The technologies comprise among others, two high-temperature heat pump solutions for steam supply at up to 200 °C, a reversed Brayton heat pump with supply temperatures up to 300 °C, an innovative technology for heat pump-based drying and heating of minerals, a highly integrated steam compression-based solution for superheated steam drying and a heat capturing device for radiative waste heat recovery. These key-enabling technologies will be demonstrated in 5 demonstrators at industrial end-users representing EUs energy intensive process industries: asphalt, ceramics, pulp & paper, bricks and steel. These technologies are scalable for plant-wide implementation, allow a complete decarbonization at energy savings between 43 % to 86 %, based on local renewable energy sources. The development, implementation, operation and scaling of these technologies is optimized by use of digital twin-based solutions. The project will be a cornerstone for enabling a decarbonized, efficient and competitive European industry, by developing and demonstrating key-enabling technologies at large scale.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101178624
Start date: 01-11-2024
End date: 31-10-2028
Total budget - Public funding: 18 438 582,50 Euro - 14 995 451,00 Euro
Cordis data

Original description

Industrial process heating accounts for 16 % of total final energy demand and 13 % of the greenhouse gas emissions in the EU. Decarbonizing industrial process heating through electrification and increased energy efficiency is a key measure for reaching the climate targets in 2030, reducing the dependency on fossil fuels, strengthening the exploitation of local renewable energy sources and increasing the competitiveness of the European industry. While there are highly efficient technologies, such as industrial heat pumps, available for temperatures below 150 °C, there is a clear demand for novel technologies for processes with heat demands at higher temperatures.
EEETHOS will fill this technology gap by developing key-enabling technologies for energy efficient, flexible and decarbonized process heating, and demonstrating them in five installations at industrial end-users at a TRL of 7. The technologies comprise among others, two high-temperature heat pump solutions for steam supply at up to 200 °C, a reversed Brayton heat pump with supply temperatures up to 300 °C, an innovative technology for heat pump-based drying and heating of minerals, a highly integrated steam compression-based solution for superheated steam drying and a heat capturing device for radiative waste heat recovery. These key-enabling technologies will be demonstrated in 5 demonstrators at industrial end-users representing EUs energy intensive process industries: asphalt, ceramics, pulp & paper, bricks and steel. These technologies are scalable for plant-wide implementation, allow a complete decarbonization at energy savings between 43 % to 86 %, based on local renewable energy sources. The development, implementation, operation and scaling of these technologies is optimized by use of digital twin-based solutions. The project will be a cornerstone for enabling a decarbonized, efficient and competitive European industry, by developing and demonstrating key-enabling technologies at large scale.

Status

SIGNED

Call topic

HORIZON-CL4-2024-TWIN-TRANSITION-01-32

Update Date

15-11-2024
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Processes4Planet Partnership
Processes4Planet Partnership Call 2024
HORIZON-CL4-2024-TWIN-TRANSITION-01-32 Optimisation of thermal energy flows in the process industry (Processes4Planet partnership) (IA)
Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.4 Digital, Industry and Space
HORIZON.2.4.9 Low-Carbon and Clean Industries
HORIZON-CL4-2024-TWIN-TRANSITION-01
HORIZON-CL4-2024-TWIN-TRANSITION-01-32 Optimisation of thermal energy flows in the process industry (Processes4Planet partnership) (IA)