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MAST3RBoost

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Maturing the production standards of ultraporous structures for high density hyd...

Maturing the production standards of ultraporous structures for high density hydrogen storage bank operating on swinging tem peratures and low compression MAST3RBoost will bring to the stage of maturation a new generation of ultraporous materials (Activated carbons, ACs, and MOFs) with a 30% increase of the working capacity of H2 at 100 bar (reaching 10 wt% and 44 gH2/lPS), by turni... ver más

31/05/2026

ENVIROHEMP

5M€

Presupuesto del proyecto: 5M€

Líder del proyecto

ENVIROHEMP 1. comercio al por mayor y al por menor. distribución comercial. importación y exportación. 2. industrias manufactureras y textiles. 3. ener...

TRL 4-5 | 130K€

Fecha límite participación Sin fecha límite de participación.

Ver 13 Participantes

Financiación concedida El organismo HORIZON EUROPE notifico la concesión del proyecto el día 2022-05-22

HORIZON-CL4-2021-RESILIENCE-01-17: Advanced materials for hydrogen sto... ExpectedOutcome:The benefits of a hydrogen based economy are well documented, since hydrogen is an a...

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Información adicional privada

No hay información privada compartida para este proyecto. Habla con el coordinador.

13 Participantes

ENVIROHEMP

724.42K€ | Lider

PEUGEOT CITROEN AUTOMOVEIS P...

127.38K€ | Participante

ZENTRIX LAB OU

290.13K€ | Participante

COUNCIL FOR SCIENTIFIC AND I...

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Duración del proyecto: 48 meses Fecha Inicio: 2022-05-22
Fecha Fin: 2026-05-31

Líder del proyecto

ENVIROHEMP 1. comercio al por mayor y al por menor. distribución comercial. importación y exportación. 2. industrias manufactureras y textiles. 3. ener...

TRL 4-5 | 130K€

Presupuesto del proyecto 5M€

Fecha límite de participación Sin fecha límite de participación.

Descripción del proyecto MAST3RBoost will bring to the stage of maturation a new generation of ultraporous materials (Activated carbons, ACs, and MOFs) with a 30% increase of the working capacity of H2 at 100 bar (reaching 10 wt% and 44 gH2/lPS), by turning the lab-scale synthesis protocols into industrial-like manufacturing process. Densified prototypes of ACs and MOFs will be produced beyond 10 kg for the first time using pre-industrial facilities already in place. The process will be actively guided by unsupervised Machine Learning, while the foundations for an in-depth supervised learning in the sector of H2 storage will be established with harmonized procedures. Recycled raw materials for the manufacturing of the ultraporous materials will be actively pursued, both from waste agroforestry biomass and from solid urban waste (PET and Al-lined bricks). In parallel, new lightweight Al and Mg-based metal alloys will be adapted to Additive Manufacturing, via the WAAM technology. Databases for mechanical properties relevant to pressure vessel design will be improved, covering gaps for testing under compressed H2. WAAM and engineering capacities (COMSOL numerical calculation) will allow to produce an innovative type I vessel demonstrator including balance of plant and with a dedicated shape to better fit on-board. A unique combination of maximum pressure (up to 100 bar) and carefully selected temperature swing will allow producing a system storage density as high as 33 gH2/lsys. The system will be manufactured to embed 1 kg of H2, becoming a worldwide benchmark for the adsorbed storage at low compression with a highly competitive projected cost of 1,780 ? for the automotive sector. This demonstrator will embody an actual and techno-economically feasible solution for transportations sectors that require storage capacities beyond 60 kg H2 such as trucks, trains and planes. LCA and risk & safety assessment will be performed with high-quality data and shared with stakeholders of the sector.

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