Periodic Reporting for period 3 - BIORECOVER (Development of an innovative sustainable strategy for selective biorecover of critical raw materials from Primary and Secondary sources)
Berichtszeitraum: 2022-06-01 bis 2024-02-29
-Rare Earths (REE) from Bauxite Residue (BR)
-Magnesium from Mg wastes of low grade minerals and calcination by-products (MgW)
-Platinum Group Metals from flotation tailings & Platinum Group Minerals process residues
BIORECOVER will be based on the integration of 3 stages to reach the recovery rates (90%), selectivity (95%) & purity (99%) (TRL from 2-3 to 5):
(1) Remove major impurities in raw materials to achieve greater availability of target metals for their recovery.
(2) Mobilise these metals through specific and improved microorganisms to get a leachate enriched with the target CRMs.
(3) Development of a technology for recovering metals with high selectivity & purity that meet quality requirements for reuse.
Downstream processes will be studied for the reuse of recovered metals (brakes pads, oxygen sensors, powder Mg & catalysts). LCA & LCC and a Decision Making Framework will support these aims. A multidisciplinary consortium covering the whole value chain (from suppliers to end users) is involved, including 14 partners from 7 member states across EU (ES, DK, FR, LE, PT, SE & UK) and effective international cooperation with South Africa.
BIORECOVER concept aims to reduce the gap between the EU supply and demand for CRM providing a breakthrough flexible, versatile and modular alternative, based on three mainly bio-based steps. The scientific advances in the field of biotechnology will allow to exploit primary (MgW and Platinum low-grade ores - PLGO) and secondary raw materials (BR & PGM content byproducts -PCBP), inaccessible by conventional extraction methods.
Moreover, the transmission of the generated knowledge will be a key aspects of the BIORECOVER concept through effective actions such as conferences, seminars, workshops, publications in high impact journals, reports to feed the Raw Materials Information System (RMIS) . Finally, improvement of the awareness, trust and acceptance by relevant actors and general public on the importance of raw materials and its EU supply, will be crucial for project success, and will be addressed through an awareness campaign as part of dissemination and public perception studies towards novel BIORECOVER process.
https://www.youtube.com/watch?v=a8gl2Z59Xg8&pp=ygUKYmlvcmVjb3Zlcg%3D%3D
Regarding the sustainability of the process, a complete analysis was carried out using the environmental, cost, and social life cycle analysis methodology (LCA, LCC, SLCA), complemented by an analysis of public perception through surveys and descriptive statistical analysis. Moreover, an analysis of the Health, Safety and Risk Assessment was also conducted using a Plan-Do-Check-Act methodology.
Complementary to all of this, a study of the valorisation of the residual streams for each process was carried out. Moreover, during this reporting period, several actions were developed to increase the impact of the BIORECOVER project through dissemination and communication strategies to the general public and target stakeholders, as well as to increase the uptake of project results by industry and the scientific community through the impact studies, exploitation and replicability tasks. Finally, meetings were held with the Stakeholder & Scientific Advisory Panel (SSAP) and their advices were taking into account.
Moreover, the end users, FAE, MAGNA and JM, have analysed the samples obtained from each integration process for their reuse in final products.
The mobilisation of REE from BR was successfully achieved with recoveries of 63% and 58% of Y and Sc, respectively, at bioreactor scale with a pulp density of 10%. Similarly, mobilisation of 94% of Mg from Mg calcination by-products was achieved at bioreactor scale with a pulp density of 2%. For PGMs, recovery of almost 78% of Pt and 58% of Pd present in PGMs was achieved at 10% pulp density at bioreactor scale, and more than 90% of Au was recovered from PGM flotation tailings. In addition, an efficient pre-treatment of PGM flotation tailings was carried out using indigenous thermophiles, achieving a removal of 99.3% for Co, 8.1% for Cr, 90.1% for Cu, 41.58% for Fe and 99.5% for Ni. In addition, the valorisation of the residual streams after the leaching process was demonstrated for the production of geopolymers.
https://www.youtube.com/watch?v=HAlNxJKbPzE
-BIORECOVER flexible and modular approach has advanced in the CRMs extraction, covering five (LREE, HREE, Sc, Mg&PGM) of the 26 materials listed by UE, representing 19%, a very wide scope of elements.
-Through BIORECOVER – higher material-efficiency, low energy and water consumption, as well as “Zero Liquid Discharge”, and flexible & modular solution – the effectiveness of the process will increase, hence the economic impact, reducing capital expenditure, operational and maintenance costs. A reduction of 35% at economical level is expected to be achieved with respect to current processes
-A key impact in the long term arising from BIORECOVER will be the benefit for EU industry associated with Raw Materials, due to the high-performance of the integrated process for biomining proposed – processing, refining, equipment manufactures & CRM end-user industries will be directly impacted. BIORECOVER covers the whole value chain of Raw Materials Industry and can contribute to its competitiveness, enabling the achievement a high impact in terms of creating added value and new jobs.
-Risk, health and safety were studied during the project that also developed studies on sustainability of the new technologies that could guide the future scalation.
-The BIORECOVER solution supports the implementation of SDG12, Responsible Production and Consumption, contributes to the Strategic Implementation Plan of the EIP on Raw Materials and Circular Economy and improves public awareness, acceptance and trust in theraw materials sectors.