Summary
The core vision of the BATMACHINE project is centred on strengthening Europe’s battery cell industrial manufacturing value chain by developing new battery cell manufacturing machinery. This is done whilst giving priority to minimising the energy energy for cells production, enhancing plant efficiency rates and integrating intelligent control processes to reduce scrap.
BATMACHINE will develop and implement an optimised and energy-efficient process chain considering:
• Slurry mixing (automated modular process set-up including monitoring techniques);
• Exclusive slot-die coating and drying novel machinery (with one side coating, a coating speed of 1m/min up to 20m/min and a web-width of 300 mm);
• Together with a calendaring tool to be integrated in a battery manufacturer for process optimisation.
Moreover, intelligent control processes and Industry 4.0 will be intensively integrated through the creation of a collaborative and FAIR data space for battery production. Digital interfaces between battery manufacturing equipment, control system, and engineers will be developed with the aim of building universal digitalisation tools to enhance the battery production and create a battery passport. The environmental and economic impact of different machinery, production line configurations and factory designs will be deeply studied to reduce the cost and energy consumption of manufacturing processes.
BATMACHINE will develop and implement an optimised and energy-efficient process chain considering:
• Slurry mixing (automated modular process set-up including monitoring techniques);
• Exclusive slot-die coating and drying novel machinery (with one side coating, a coating speed of 1m/min up to 20m/min and a web-width of 300 mm);
• Together with a calendaring tool to be integrated in a battery manufacturer for process optimisation.
Moreover, intelligent control processes and Industry 4.0 will be intensively integrated through the creation of a collaborative and FAIR data space for battery production. Digital interfaces between battery manufacturing equipment, control system, and engineers will be developed with the aim of building universal digitalisation tools to enhance the battery production and create a battery passport. The environmental and economic impact of different machinery, production line configurations and factory designs will be deeply studied to reduce the cost and energy consumption of manufacturing processes.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101104246 |
| Start date: | 01-06-2023 |
| End date: | 30-11-2026 |
| Total budget - Public funding: | 7 219 541,66 Euro - 5 645 321,00 Euro |
Cordis data
Original description
The core vision of the BATMACHINE project is centred on strengthening Europe’s battery cell industrial manufacturing value chain by developing new battery cell manufacturing machinery. This is done whilst giving priority to minimising the energy energy for cells production, enhancing plant efficiency rates and integrating intelligent control processes to reduce scrap.BATMACHINE will develop and implement an optimised and energy-efficient process chain considering:
• Slurry mixing (automated modular process set-up including monitoring techniques);
• Exclusive slot-die coating and drying novel machinery (with one side coating, a coating speed of 1m/min up to 20m/min and a web-width of 300 mm);
• Together with a calendaring tool to be integrated in a battery manufacturer for process optimisation.
Moreover, intelligent control processes and Industry 4.0 will be intensively integrated through the creation of a collaborative and FAIR data space for battery production. Digital interfaces between battery manufacturing equipment, control system, and engineers will be developed with the aim of building universal digitalisation tools to enhance the battery production and create a battery passport. The environmental and economic impact of different machinery, production line configurations and factory designs will be deeply studied to reduce the cost and energy consumption of manufacturing processes.
Status
SIGNEDCall topic
HORIZON-CL5-2022-D2-01-04Update Date
31-07-2023
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Organisations
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| VRIJE UNIVERSITEIT BRUSSEL (VUB) (Coördinator)
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| CEGASA ENERGIA S.L.U.
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| DEEP BLUE SRL (DEEP BLUE)
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| FOM TECHNOLOGIES A/S
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| Fundación Tekniker
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| LECLANCHE GMBH
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| NETZSCH FEINMAHLTECHNIK GMBH
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| POMEGA ENERJI DEPOLAMA TEKNOLOJILERI ANONIM SIRKETI
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| RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN - WZL
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| SINTEF AS (SINTEF)
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| SINTEF OCEAN AS
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| SKZ-KFE GGMBH