Summary
XTRACT seeks to introduce the novel concept of the Zero Emission Mine of the Future, introducing innovative technologies for sustainable and decarbonised extraction. The XTRACT technological pathways to a lower mining emission future are addressing well-identified emission intensive points of the current mining value chain. XTRACT will add a highly innovative new alternative to the toolbox of how stockpiles and tailings are assessed, relieving the pressure on resources and contributing to the realization of EU Climate Neutrality Goals, with a significant benefit of emission reduction. XTRACT will scale remote sensing systems and analytical resources to allow the systematic and remote monitoring of “hard-to-access” mining sites and waste deposits. XTRACT targets the reduction of ore losses and mining waste, through a novel system for the control of the ore loss and dilution, reducing overall mine emissions and economic loss. The trend towards declining orebody grades and continued development of the pursuit of existing operation to exploit lower grade deposits is likely to continue, in the absence of high-grade project discovery. XTRACT will develop and validate innovative microinvasive technologies and solutions to extract high-tech elements from minerals and wastes, specifically tailored to remote, “hard-to-reach” locations and small quantities, where extraction is unprofitable. The in-situ bioleaching process and membrane treatment will be applied and optimized with the aim to achieve enhanced microbial activity, catalyst production, and therefore, maximum metal recovery from the source. XTRACT will introduce low-TRL green technologies of phytoextraction and phytoremediation, particularly appropriate for mining waste piles and abandoned sites, that represent a solution for mine waste remediation but also for the extraction and recovery of various precious metals. XTRACT will be validated in 5 case studies in Germany, Sweden, Portugal and Greece.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101138432 |
| Start date: | 01-12-2023 |
| End date: | 30-11-2026 |
| Total budget - Public funding: | - 4 995 636,00 Euro |
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Original description
XTRACT seeks to introduce the novel concept of the Zero Emission Mine of the Future, introducing innovative technologies for sustainable and decarbonised extraction. The XTRACT technological pathways to a lower mining emission future are addressing well-identified emission intensive points of the current mining value chain. XTRACT will add a highly innovative new alternative to the toolbox of how stockpiles and tailings are assessed, relieving the pressure on resources and contributing to the realization of EU Climate Neutrality Goals, with a significant benefit of emission reduction. XTRACT will scale remote sensing systems and analytical resources to allow the systematic and remote monitoring of “hard-to-access” mining sites and waste deposits. XTRACT targets the reduction of ore losses and mining waste, through a novel system for the control of the ore loss and dilution, reducing overall mine emissions and economic loss. The trend towards declining orebody grades and continued development of the pursuit of existing operation to exploit lower grade deposits is likely to continue, in the absence of high-grade project discovery. XTRACT will develop and validate innovative microinvasive technologies and solutions to extract high-tech elements from minerals and wastes, specifically tailored to remote, “hard-to-reach” locations and small quantities, where extraction is unprofitable. The in-situ bioleaching process and membrane treatment will be applied and optimized with the aim to achieve enhanced microbial activity, catalyst production, and therefore, maximum metal recovery from the source. XTRACT will introduce low-TRL green technologies of phytoextraction and phytoremediation, particularly appropriate for mining waste piles and abandoned sites, that represent a solution for mine waste remediation but also for the extraction and recovery of various precious metals. XTRACT will be validated in 5 case studies in Germany, Sweden, Portugal and Greece.Status
SIGNEDCall topic
HORIZON-CL4-2023-RESILIENCE-01-02Update Date
12-03-2024
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Organisations
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| TECHNISCHE UNIVERSITAET BERGAKADEMIE FREIBERG (Coördinator)
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| ACCELIGENCE LTD
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| BJORKDALSGRUVAN AB
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| BUREAU DE RECHERCHES GEOLOGIQUES ET MINIERES
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| ETAIREIA AXIOPOIISEOS KAI DIACHEIRISEOS TIS PERIOUSIAS TOU ETHNIKOU METSOVIOU POLYTECHNEIOU (E.M.P.)
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| G.E.O.S.INGENIEURGESELLSCHAFT MBH
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| LIETUVOS AGRARINIU IR MISKU MOKSLU CENTRAS
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| LULEA TEKNISKA UNIVERSITET
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| Laboratorio Nacional de Energia e Geologia I.P.
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| MUON SOLUTIONS OY
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| POLYTECHNEIO KRITIS
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| SAXORE BERGBAU GMBH
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| UNIVERSIDAD DE SALAMANCA
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| UNPARALLEL INNOVATION LDA