EU H2020 METGROW+ (Zero-waste valorisation of industrial process residues): http://metgrowplus.eu/
The EU Horizon 2020 project METGROW+ will address and solve bottlenecks in the European raw materials supply by developing innovative metallurgical technologies for unlocking the use of potential domestic raw materials. Within this project, both primary and secondary materials are studied as potential metal resources. Economically important nickel-cobalt deposits, low grade polymetallic wastes and iron containing sludges (goethite, jarosite, etc.) which are currently not yet being exploited due to technical bottlenecks are in focus. Concurrently, METGROW+ targets innovative processes to extract important metals including Ni, Cu, Zn, Co, In, Ga, Ge in a cost-effective way. As project main output, a toolbox for metallurgical systems development is created in the project using new methods and combinations.
EURELCO (European Enhanced Landfill Mining Consortium): https://www.eurelco.org/
EURELCO is an open, quadruple helix network that supports the required technological, legal, social, economic, environmental and organisational innovation with respect to Enhanced Landfill Mining within the context of a transition to a resource efficient, circular, low-carbon economy. EURELCO deals with both Urban Solid Waste Landfills and monolandfills containing extractive waste or industrial process residues.
ETN NEW-MINE (EU Training Network for Resource Recovery Through Enhanced Landfill Mining): http://new-mine.eu/
ETN NEW-MINE is a twin project of SOCRATES. NEW-MINE trains 15 early-stage researchers (ESRs) in all aspects of landfill mining, in terms of both technological innovation and multi-criteria assessments. The technological innovation follows a value-chain approach, from advanced landfill exploration, mechanical processing, plasma/solar/hybrid thermochemical conversion and upcycling, while the multi-criteria assessment methods allow to compare combined resource-recovery/remediation ELFM methods with the “Do-Nothing”, “Classic remediation” and “Classic landfill mining with (co-)incineration” scenarios.