Last January, activities began on the SINCER project (Industrial Symbiosis for Circularity and the Economy of Critical Raw Materials), whose purpose is to investigate the recovery of critical metals present in industrial waste from various sources generated by the metallurgical industry.
Its main objective is to promote effective industrial symbiosis through research into sustainable technologies aimed at the recovery and valorization of essential metals, such as manganese (Mn), silicon (Si), magnesium (Mg), nickel (Ni), or chromium (Cr), and key metals, such as zinc (Zn) or iron (Fe), present in such waste.
In particular, the project aims to close material cycles and facilitate their reincorporation into both the original processes and new strategic applications; for example, in batteries, magnets, and alloys.
The project is being carried out by a consortium led by the company FERROGLOBE, which coordinates the work of five other companies: Técnicas Reunidas, SIDENOR, AUTLAN, Magnesitas Navarras, and Semantic Systems. Nine research organizations are also participating: GAIKER, CTC, CETIM, Idonial, Tecnalia, Leitat, the University of Barcelona, the University of Navarra, and Lurrederra.
SINCER will generate viable processes that will enable the companies in the consortium to recover and purify elements contained in byproducts that currently have no commercial outlet, converting them into reusable raw materials and thereby reducing their external dependence on raw materials in their production processes.
Specifically, the plan is to recover up to nine waste streams from the operations of four industrial partners in the consortium (FERROGLOBE, SIDENOR, AUTLAN, and Magnesitas Navarras). For its part, Semantic Systems, a technology company specializing in industrial Artificial Intelligence (AI) and blockchain solutions, is responsible for designing an interoperable digital ecosystem that enables full traceability of the value chain.
To achieve its objectives, SINCER will combine hydrometallurgical and pyrometallurgical processes, along with advanced conditioning and separation technologies, in order to maximize resource recovery and improve the circularity of strategic raw materials. These activities will be led by Técnicas Reunidas, which has extensive experience in these processes and technologies.
The project will last four years and has a total budget of €7,333,603, to which Técnicas Reunidas is contributing an investment of €2,039,289.
Ultimately, SINCER will help consolidate a robust circular economy centered on critical raw materials, helping to reduce external dependence and generating high-value scientific and technological knowledge for industry.
Funded by the CDTI | Grant No.: MIG-20251225