Resumen
Growing demand for high quality iron ores and scrap as well as abandonment of carbon intensive
sintering in the future require novel technological approaches for upgrading of low-grade iron ores
and recycling of mill scale. TransZeroWaste will apply hydrometallurgy for mill scale de-oiling and
use this iron-rich scrap equivalent to upgrade low-grade iron ores. For that, TransZeroWaste will
develop low carbon technologies such as cold pelletising and briquetting, hot microwave
pelletising, and magnet-supported hydrometallurgy from TRL 6 to TRL 8. The developed technologies
will be transferable to further material flows such as dusts and sludges. On European level, the
expected impact will be the potential upgrade of over 18 million t/a low-grade iron ore, up to 6
million t/a mill scale and 3 million t/a pellet sieving residue. Total impact of TransZeroWaste
will include upgrading of 27 million t/a materials with low carbon technologies and avoiding of
corresponding sinter plant carbon footprint of 4,3 - 9,9 MtCO2/a. Technological competences and
know- how are owned by the participating partners from the applied research. They will be developed
and transferred to the two industrial partners with 9 production sites. Thoroughly planned
dissemination and exploitation activities will ensure effective implementation of technologies
after project end. Life cycle assessment and economic evaluation will be performed; sustainable
business models will be developed. Furthermore, a decision support platform for industrial users
will be installed. In combination with workshops and trainings it will help to find and implement
the best upgrading technology for various low-grade materials considering environmental and
economic aspects. TransZeroWaste will serve as a vehicle for the transition of the European steel
industry to the carbon free zero waste future.
