The exploitation of minerals in Europe is an indispensable activity to ensure that the present and future needs of the European society can be met. This means that sufficient access is required to explore and exploit minerals. At the same time the mineral needs of our society must be met without compromising the ability of future generations to meet their own needs. Accordingly exploitable mineral deposits (known deposits, abandoned mines and historical mining sites) need to be assessed against other land uses, taking into account criteria such as habitats, other environmental concerns, priorities for settlements, etc. Access to mineral deposits, on the other hand, also meets public interests such as raw materials security (compared with many international access options). The deliberation between these diverse land uses requires adequate consideration of the exclusiveness, reversibility, and consequences on the surrounding. The overall objective of MINATURA 2020 is to develop a concept and methodology (i.e. a harmonised European regulatory/guidance/policy framework) for the definition and subsequent protection of “mineral deposits of public importance” in order to ensure their “best use” in the future. Providing a policy planning framework that comprises the “sustainability principle” for mining is the key driving force behind MINATURA.

MINOTAUR seeks to address the exploration drilling problem from a novel and revolutionary perspective, bringing together geological principles and concepts involved in exploration drilling with modern technologies such as robotics, digital twin technology, and artificial intelligence. Along the way, MINOTAUR proposes novel research directions in allied areas like geophysics, sensing technologies in geology, environmental impact modeling of whole mineral and production systems, numerical modeling of entire mineral systems related to critical raw materials, new drilling techniques, high-resolution sensing technologies, and artificial intelligence with novel data processing tools for a robust and expeditious geological assessment. MINOTAUR takes a fundamentally fresh look at exploration drilling and approaches it as a source seeking and resourcing mapping problem, drawing inspirations from solutions in robotics, but where geology is a central part of the decision, with the outcomes of exploration enhanced through artificial intelligence and digital twin technology.

Froth flotation is arguably the most important mineral separation technique. By making use of differences in surface properties between minerals, valuable particles are concentrated in large tanks by attaching to bubbles, which form a froth phase that overflows as a mineral-rich concentrate. However, current flotation technologies do not work adequately for fine particles, below 20 µm in size. This is a serious challenge at present limiting the exploitation of deposits and proper recycling of end of life products containing Critical Raw Materials (CRM). This FineFuture project will advance the fundamental understanding of fine particle flotation phenomena, which will lead to the development of ground-breaking technological solutions. This will not only help unlock new CRM deposits but also contribute to increase the resource and energy efficiency of current operations where the fines are lost to tailings. FineFuture will also enable proper reprocessing of old tailings deposits and be technology-transferred to other raw material particle-based processes within the circular economy, thus leading the way in the sustainable use of resources. For the EU industry the ability to float fine particles will be fundamental in securing access to raw materials in the future, yet to date there is no large scale collaborative effort to achieve this. The FineFuture consortium brings together an industry- and user-driven multidisciplinary team with the skills and experience required to tackle the challenging objectives set up for this project. Through a first of its kind research approach, the consortium’s combined expertise in science, engineering and industrial practice will allow a robust and knowledge-based development of innovative fine particle flotation technologies. This project will thus help boosting EU technologies for sustainable raw material processing in Europe and abroad, contributing to energy- and resource-efficient processing in benefit of the future generations.

Industrial symbiosis (IS) has gain great attention in the last years due to its high potential for energy and resources savings. However, there is still a need for enhancing the knowledge base for IS in Europe, especially in what regards to the implementation and operation phases, which must be supported by harmonised frameworks and data reporting structures that ensure data accuracy and comparability in existing and new IS initiatives. Under this framework, CORALIS has been designed as a demonstration project for the generation of real experiences on the deployment of IS solutions and the overcoming of the barriers faced by these initiatives. In order to properly address this complex issue, CORALIS will address three factors (technical, managerial and economical) that will set the basis for the definition of the IS readiness level, a useful indicator establishing the feasibility of the overall IS initiative. In addition to specific developments on each of these factors, CORALIS will provide a harmonised framework for the monitoring of results and evaluation of their impact from a life cycle perspective. This impact assessment methodology will be implemented into a virtual assessment platform that will support the operation of the involved industrial parks. The overall approach of CORALIS will be demonstrated in a total of 3 industrial parks, each of them supported by an IS facilitator, a neutral actor in charge of guiding the IS initiative and exploiting its full potential. Moreover, 3 additional industrial parks will follow the project results in order to replicate them by implementing additional IS initiatives after the project’s end. Further replication is expected by gathering the project results in CORALIS Handbook for supporting the implementation of IS, by providing recommendations on regulation and standardization and by establishing a continuous dialogue with main European stakeholders following an ambitious dissemination and exploitation strategy.