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"end_date": "2027- | "end_date": "2027-02-28", | ||
"total_budget": 6298614.26, | "total_budget": 6298614.26, | ||
"yearly_budget": [], | "yearly_budget": [], | ||
Latest revision as of 14:25, 14 January 2025
| Li4LIFE [OSWe67fa5f239b34849a6343e8ae569263d] | |
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| ID | OSWe67fa5f239b34849a6343e8ae569263d |
| UUID | e67fa5f2-39b3-4849-a634-3e8ae569263d |
| Label | Li4LIFE |
| Machine compatible name | Li4LIFE |
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| Ontology equivalents | |
| Statements (outgoing) | |
| Statements (incoming) | |
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| Keywords | |
Description
An EU research project on lithium value chain
| Item | |
|---|---|
| Type(s)/Category(s) | Project |
| Project | |
|---|---|
| Type | Public |
| Grantor | |
| Funding call | |
| Grant ID | |
| Start | 2024-03-01 |
| End | 2027-02-28 |
| Budget | 0.0e+0 |
| OU | |
| Project manager | |
| Member | |
Abstract
Lithium, a key component in the push for clean energy, is unevenly distributed across Europe. Unlike the abundant brines of South America and Australia, EU deposits are embedded in complex mineral structures. This makes extracting and purifying lithium challenging. In this context, the EU-funded Li4Life project tackles this issue with cutting-edge technology. The initiative focuses on extracting lithium from complex ores and post-mining tailings, aiming to enhance Europe’s battery-grade lithium supply. By 2030, Li4Life plans to boost the EU’s domestic lithium supply by at least 5 %. Their strategy involves developing innovative processing techniques and ensuring compliance with stringent environmental standards, paving the way for a more sustainable and self-reliant battery industry
Long Name
Novel domestic battery grade lithium carbonate value chain for green life
Topic of the project
Li value chain
Project Coordinator
FUNDACION ICAMCYL
Consortium Members
- FUNDACION ICAMCYL (COO)
- UNIVERSIDAD DE OVIEDO (BEN)
- TECHNISCHE UNIVERSITAET BERGAKADEMIE FREIBERG (BEN)
- OULUN YLIOPISTO (BEN)
- Masarykova univerzita (BEN)
- MINING AND METALLURGY INSTITUTE BOR LTD (BEN)
- TEKNOLOGIAN TUTKIMUSKESKUS VTT OY (BEN)
- FRAUNHOFER GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG EV (BEN)
- CLUSTER PARA LA MINERIA SOSTENIBLE Y SERVICIOS ASOCIADOS DE LA PENINSULA IBERICA - IBERIAN SUSTAINABLE MINING CLUSTER (BEN)
- GESMINLE SL (AE)
- INGENIERIA Y CONSULTORIA EN RECURSOS DEL SUBSUELO SL (AE)
- TECHNOLOGY METALS EUROPE SL (AE)
- CONSULTORIA GEOLOGICA SL (AE)
- IDENER RESEARCH & DEVELOPMENT AGRUPACION DE INTERES ECONOMICO (BEN)
- MNLT INNOVATIONS IKE (BEN)
- CROWDHELIX LIMITED (BEN)
- L'ASSOCIATION EUROPEENNE DE LA MOBILITE ELECTRIQUE (BEN)
- EURO LITHIUM BALKAN DOO VALJEVO (BEN)
- UNIVERSITY OF LINCOLN (AP)
Website and important links
Website: www.li4life.eu
Cordis: EU Funding & Tenders Portal https://cordis.europa.eu/project/id/101137932
LinkedIn: https://www.linkedin.com/company/li4life-eu-project
Twitter/X: https://x.com/li4LIFEProject
YouTube: https://www.youtube.com/@Li4LIFE_EUPROJECT
Other: NA
Goals of the project
Li4Life’s efforts support the EU’s plans to ecological transition and to become a major supplier to the fast-growing European battery sector reducing dependency on foreign Li supplies.
The project aims to introduce new environmentally friendly downstream processes to successfully create new Li value chains for Li battery-grade concentrates.
One of the key features of the project is defining the bulk use for remaining mine waste to reduce the overall environmental impact of the extraction.
Finally, the strategic implementation of the project will include the commitment to obtain a social license for its operations and business models and ensuring compliance with EU ecological framework, which are strong drivers and key to success in the sector for the medium and long term.
Results
- Up to 100% increase in the selective extraction of Li
- 20% increase in overall recovery of metals
- Reduction of energy requirements by up to 30%
- Full water reuse
- Waste valorisation and environmentally friendly mining practices to achieve zero waste mining
- Validation process of hihg-grade Li2CO3 for batteries (99.99%)
Budget
€ 6 298 614,26
Duration (and maybe Extension)
3 year porject (March 2024 to February 2027)
Publications
NA
Patents
jsondata
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| project_type | "public" | |||||
| project_status | "Item:OSW55a9a9bda7b248759e48ae2e3ed6df1d" | |||||
| funding_call | "" | |||||
| funder | "Item:OSWeb01c7cad4aa4c95ad51724a17fe91a1" | |||||
| funding | "" | |||||
| funding_name | "" | |||||
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| member |
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| start_date | "2024-03-01" | |||||
| end_date | "2027-02-28" | |||||
| total_budget | 6298614.26 | |||||
| yearly_budget |
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| proposal | "" | |||||
| abstract | "Lithium, a key component in the push for clean energy, is unevenly distributed across Europe. Unlike the abundant brines of South America and Australia, EU deposits are embedded in complex mineral structures. This makes extracting and purifying lithium challenging. In this context, the EU-funded Li4Life project tackles this issue with cutting-edge technology. The initiative focuses on extracting lithium from complex ores and post-mining tailings, aiming to enhance Europe’s battery-grade lithium supply. By 2030, Li4Life plans to boost the EU’s domestic lithium supply by at least 5 %. Their strategy involves developing innovative processing techniques and ensuring compliance with stringent environmental standards, paving the way for a more sustainable and self-reliant battery industry" | |||||
| uuid | "e67fa5f2-39b3-4849-a634-3e8ae569263d" | |||||
| label |
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| description |
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| name | "Li4LIFE" | |||||
| image | "File:OSW6e7a5f6e1e424eb98e79f5da4034239f.png" |