
MEAB CHEMIE TECHNIK GMBH
MEAB CHEMIE TECHNIK GMBH
8 Projects, page 1 of 2
Open Access Mandate for Publications assignment_turned_in Project2014 - 2019Partners:RWTH, KTH, ALUMINIUM OF GREECE INDUSTRIAL AND COMMERCIAL SA, UH, UT +5 partnersRWTH,KTH,ALUMINIUM OF GREECE INDUSTRIAL AND COMMERCIAL SA,UH,UT,TITAN CEMENT COMPANY SA,KUL,MEAB CHEMIE TECHNIK GMBH,NTUA,METLENFunder: European Commission Project Code: 636876Overall Budget: 3,720,890 EURFunder Contribution: 3,720,890 EURTo tackle its (critical) raw material dependency, Europe needs comprehensive strategies based on sustainable primary mining, substitution and recycling. Freshly produced flows and stocks of landfilled industrial residues such as mine tailings, non-ferrous slag and bauxite residue (BR) can provide major amounts of critical metals and, concurrently, minerals for low-carbon building materials. The European Training Network for Zero-Waste Valorisation of Bauxite Residue (REDMUD) therefore targets the vast streams of new and stockpiled BR in the EU-28. BR contains several critical metals, is associated with a substantial management cost, whereas spills have led to major environmental incidents, including the Ajka disaster in Hungary. To date, zero-waste valorisation of BR is not occurring yet. The creation of a zero-waste BR valorisation industry in Europe urgently requires skilled scientists and engineers, who can tackle the barriers to develop fully closed-loop environmentally-friendly recovery flow sheets. REDMUD trains 15 researchers in the S/T of bauxite residue valorisation, with emphasis on the recovery of Fe, Al, Ti and rare earths (incl. Sc) while valorising the residuals into building materials. An intersectoral and interdisciplinary collaboration of EU-leading institutes and scientists has been established, which covers the full value chain, from BR to recovered metals and new building materials. Research challenges include the development of efficient extraction of Fe, Al, Ti and rare earths (incl. Sc) from distinct (NORM classified) BRs and the preparation of new building materials with higher than usual Fe content. By training the researchers in pyro-, hydro- and ionometallurgy, electrolysis, rare-earth extraction and separation technology, inorganic polymer and cement chemistry, Life Cycle Assessment (LCA), NORM aspects and characterisation, they become the much needed scientists and engineers for the growing European critical raw materials industry.
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For further information contact us at helpdesk@openaire.euOpen Access Mandate for Publications and Research data assignment_turned_in Project2025 - 2028Partners:Complutense University of Madrid, University of Patras, TENNECO AUTOMOTIVE EUROPE BVBA, DIN DEUTSCHES INSTITUT FUER NORMUNG E.V., PROZERO INTERNATIONAL APS +8 partnersComplutense University of Madrid,University of Patras,TENNECO AUTOMOTIVE EUROPE BVBA,DIN DEUTSCHES INSTITUT FUER NORMUNG E.V.,PROZERO INTERNATIONAL APS,YLISENSE P.C.,LZH,NEURALTECH PC,STRATAGEM ENERGY LTD,ENGITEC SYSTEMS INTERNATIONAL LIMITED,CRF,ASL,MEAB CHEMIE TECHNIK GMBHFunder: European Commission Project Code: 101174399Funder Contribution: 4,999,650 EURNature uses foam or sponge-like structures in various organisms for purposes like shock absorption, noise reduction, and vibration compensation in a remarkable example of evolutionary adaptation and functional design. On the other hand, many products still rely on non-sustainable materials of fossil-based origin, for example foams and elastomeric used for vibratory motion, sound, harshness, energy, and shock-impact absorption in industries such as automotive, aerospace and marine. Example of such Noise Vibration and Harshness (NVH) materials are rubber and engineering resins. Bio.3DGREEN develops and demonstrates a novel manufacturing approach for a cost-effective bio-inspired platform of bio-based components based on graphene foam (GF) to meet the industrial needs, i.e. vibration, sound and shock-impact absorption and durability in extreme conditions. Bio.3DGREEN democratizes graphene technology and enables the unscalable fabrication of graphene-based components of complex geometries to be demonstrated at TRL 6 through a high throughput, laser-based Additive Manufacturing (AM) procedure. The procedure is bio-inspired, mimicking structures such as the human bone, and is based solely on bio-based graphene system with vegetable oil as the raw material, resulting in carbon-positive manufacturing of the new components. Bio.3DGREEN demonstrates the superior bio-based GF parts in four different industries, aiming to drive the optimization of the new manufacturing approach through an application-driven approach: Automotive suspension systems & isolation panels, aerospace applications and quiet shipping. Bio.3DGREEN achieves a multi-disciplinary approach to develop, optimize, and improve smart manufacturing application-driven, bio-based GF components, also considering the performance of current materials used, their cost, market size, wastage and recyclability, sustainability of manufacturing process, inclusion in Europe’s circular economy and LCA, LCC aspects.
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For further information contact us at helpdesk@openaire.euOpen Access Mandate for Publications and Research data assignment_turned_in Project2023 - 2026Partners:GTK, WIENERBERGER NV, TEKNOLOGIAN TUTKIMUSKESKUS VTT OY, KELIBER TECHNOLOGY OY, BETOLAR OYJ +10 partnersGTK,WIENERBERGER NV,TEKNOLOGIAN TUTKIMUSKESKUS VTT OY,KELIBER TECHNOLOGY OY,BETOLAR OYJ,IMERYS,KUL,INSTITUT DE L'INNOVATION DURABLE -SUSTAINABLE INNOVATION INSTITUTE,ANALISIS-DSC,MEAB CHEMIE TECHNIK GMBH,UL,OYS,TUC,SAVANNAH LITHIUM LDA,CASPEOFunder: European Commission Project Code: 101091543Overall Budget: 12,331,300 EURFunder Contribution: 11,178,100 EUREurope is 100% reliant on imports of Li for the Li-ion batteries that are central to decarbonising the energy and mobility sectors. Some fraction of our needs can come from recycling the batteries already in use, but realistically, primary supply will still have to cover 90% of the Li requirement. Paradoxically, Europe hosts 27 Li hard-rock (pegmatite & Rare-Metal Granite) deposits, representing vast lithium resources (8.8–21.7 Mt Li2O). However, the identified potential remains largely untouched, which is partly due to a reluctant attitude towards primary (Li) mining in Europe. Europeans are very enthusiastic about EVs, but rather less so about the necessary mining & refining of Li-bearing ores to realise them. By upscaling and integrating results from earlier projects, EXCEED’s 15 partners develop a new mining paradigm, i.e. zero-waste, multi-metal/mineral mining. This will be combined with sustainable mineral processing to provide us with additional critical raw materials (CRMs: rare earths, Nb, Ta, W, Be) and industrial minerals (quartz, feldspar and micas), coming from 4 lithium mines (as case studies) in Finland (Keliber), Portugal (Savannah), France (Imerys) and the UK (Imerys). The project adopts a mineral-centric, integrated methodology based on an innovative predictive and forensic geometallurgy, supported by enhanced in-line characterisation tools and the development of digital twins. EXCEED develops, upscales and demonstrates cost-effective, sustainable and responsible extraction routes for recovering CRMs and industrial minerals (the latter for use as low-carbon ceramics and cements), as by-products from the 4 Li-bearing hard-rock ores. EXCEED’s long-term impact includes the replication of the EXCEED solutions to the other 23 European pegmatite and Rare-Metal Granite deposits, thus boosting domestic CRM production (up to 21.7 Mt Li2O & 1.5 Mt of other CRMs), in a way that gains public support by respecting the environment and creating local jobs.
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For further information contact us at helpdesk@openaire.euOpen Access Mandate for Publications and Research data assignment_turned_in Project2024 - 2027Partners:ORANO MINING, UES, EIT RAWMATERIALS CLC EAST LIMITED COMPANY, VIC BV, SMART AI SOLUTIONS MONOPROSOPI IDIOTIKI KEFALAIOUCHIKI ETAREIA +12 partnersORANO MINING,UES,EIT RAWMATERIALS CLC EAST LIMITED COMPANY,VIC BV,SMART AI SOLUTIONS MONOPROSOPI IDIOTIKI KEFALAIOUCHIKI ETAREIA,FERRO DUO GMBH,ALUMINA DOO,RWTH,VENATOR GERMANY GMBH,MEAB CHEMIE TECHNIK GMBH,BAM,METU,Novamechanics,TUC,S E & C IDIOTIKI KEFALAIOUCHIKI ETAIREIA,GSC,LTB LASERTECHNIK BERLIN GMBHFunder: European Commission Project Code: 101135077Funder Contribution: 5,000,000 EUREURO-TITAN will be a pioneer in unlocking continuous Ti resources from metallurgical waste streams from alumina and Ti-dioxide production, developing 54 ktpy of Ti metal making Europe totally independent from Russian Ti-metal sponges imports crucial for alloy production in the transport and medical sectors. On this purpose an industrial driven consortium gaining experience from previous and ongoing projects for metals exctraction from industrial wastes (Scavanger,Scale, Scale Up,Valore) will develop a >90% lower CO2 emission (compared to the conventional Kroll process which produces 10tn per tn of Ti) green hydrogen sourced(ref-hyd) direct Ti reduction process will be scaled to demonstration in the industrial environment at the Bosnian Al-plant to produce tailor-made Ti-metal products for ingots or alloying. Our Ti-metal price will be 15% lower compared to imported ones (rough estimate 6800 €/t Ti compared to current prices from Russia and China at 8500 €/t). Process optimization will be achieved through integration of inline-real time data monitoring, establishing repository of high-quality and trusted datasets, and embedding Artificial Intelligence. This will lead to a 10% reduction of on-site energy and water consumption, while at the same time minimizing production interruption. Finally, circularity is ensured, as the remaining residues are converted into innovative (30% lower co2 emissions compared to cement based) construction materials while water will be recycled, and excess heat energy will serve local households.
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For further information contact us at helpdesk@openaire.euOpen Access Mandate for Publications and Research data assignment_turned_in Project2024 - 2026Partners:University of Florence, Kolektor Group d.o.o., Copreci, MEAB CHEMIE TECHNIK GMBH, Pforzheim University of Applied Sciences +15 partnersUniversity of Florence,Kolektor Group d.o.o.,Copreci,MEAB CHEMIE TECHNIK GMBH,Pforzheim University of Applied Sciences,EUROPEAN SCIENCE COMMUNICATION INSTITUTE (ESCI) GGMBH,SIG,MGEP,TUBAF,FHG,CEIT,AENOR,UGent,ECO,MAGNAX,MAGNETI LJUBLJANA DD,UPV/EHU,LANCOR,TUC,Polytechnic University of MilanFunder: European Commission Project Code: 101138767Overall Budget: 7,082,500 EURFunder Contribution: 6,372,570 EURHARMONY project aims at strengthening the independency and the competitiveness of European industry, enabling a resilience value chain of raw materials by developing and validating at pilot scale an innovative, green and safe closed-loop recycling process of Rare Earth Elements (REEs) from End-of-Life (EoL) NdFeB permanent magnets. The recycling loop encompasses the collection and dismantling of EoL NdFeB magnets and WEEE scrap, the recovery of REE metals through an indirect recycling process, the production of recycled NdFeB powder via three direct recycling methods, the manufacturing of magnets from the recycled powder, and the validation of the recycled magnets in end-user applications. Collection and recycling steps will be implemented in 8 pilot plans reaching a final TRL of 6-7. The combination of direct and indirect recycling technologies will allow dealing with any scrap containing NdFeB in any form (sintered or bonded magnets). The recycled NdFeB magnets will be used in the same applications as the magnets made from primary powder, since they will exhibit comparable properties. Additionally, they will be recyclable via the same routes. A Dissemination, Exploitation, and communication Master Plan (DECMP) will be developed to maximize the impact beyond the lifetime of HARMONY project. HARMONY will build upon existing standards during the development of the novel products, ensuring compatibility with market conditions and increasing transparency for prospective customers. The economic, environmental and social viability of these processes will be demonstrated via Life Cycle Assessment (LCA), Social Life Cycle Assessment (S-LCA) and Life-Cycle Cost Analysis (LCCA). Furthermore, social innovation including citizen dialogue, policy issues, standardization and ethics will be considered to overcome the non-technological barriers that make difficult to introduce these novel technologies at the short term in the market.
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