SOURCE will develop, improve and demonstrate in an industrially relevant environment economically and environmentally viable routes for producing battery-grade synthetic graphite for high-performance anodes. SOURCE will first enable the production of carbon precursors from heterogeneous raw material sources, including alternative sustainable petroleum feedstocks, bio-waste and black mass from recycled batteries, to reduce the current dependence of synthetic graphite from petroleum-based coke. Sustainable technologies to transform these materials into carbon feedstock will be demonstrated at TRL6/7. Additionally, low-temperature graphitization techniques (30% potential reduction of the energy consumption and production cost. Innovative high-performance Carbon@graphite, Si@graphite, and graphene@graphite coatings and anode (capacity > 350 mAh/g) will be formulated, fabricated, tested and validated in 1Ah prototype pouch cells at TRL7. Recycling processes to recover graphite at low cost with >90% purity from LiB EoL batteries and >98% purity from anode production scrap will be demonstrated at TRL7. LCA and LCC analysis will be delivered to accurately assess the sustainability of SOURCE synthetic graphite and value chain defining the best routes to ensure economic and environmental sustainability. SOURCE brings together key EU industries with main businesses in graphite precursors and synthetic graphite production, and advanced anode formulation, supported by EU leading RTOs forming the complete value chain to produce high quality synthetic graphite in a sustainable and economic way. SOURCE achievements will increase EU competitiveness and independence from foreign graphite suppliers and anode manufacturers. SOURCE technologies and materials will be directly exploited by its top-level industrial partners with a direct market presence and already established commercial channels, ensuring SOURCE value chain sustainability.

The BioBIVE Consortium is a multidisciplinary 16 members group of universities, research centres and SMEs from 6 different European countries aimed to achieve, as main objective: “the development of bio-based platforms to allow the controlled release of bio-active agents able to control the plant pathogens of horticultural crops helping to decrease the use of chemical pesticides”. The general objective is based on three different bio-based release platforms (bio-plastic mulch, biochar and sprayable mulch) and three bio-active agents (basic substances, microorganisms and marine phenolic compounds),which will be the starting point to achieve the final best formulation. The functionality of these bio-based delivery systems that use substances from natural sources against crop pathogens instead of chemical pesticides must be evaluated in laboratory, greenhouse and environmental conditions, using diverse cropping systems (e.g., carrots, strawberries, tomatoes) and techniques, which are part of the BioBIVE Partners expertise.

The answer to the current Raw Material supply challenge faced today in Europe, lies in technological innovations that increase the efficiency of resource utilization and allow the exploitation of yet untapped resources such as industrial waste streams and metallurgical by-products. One of the key industrial residues which is currently not or poorly valorised is Bauxite Residue (BR, more commonly known as “red mud”) from alumina refineries. Bauxite residue reuse solutions do exist as stand-alone but pooling them together in an integrated manner is the only way to render bauxite residue reuse viable from an economical point of view and acceptable for the industry The RemovAl project will combine, optimize and scale-up developed processing technologies for extracting base and critical metals from such industrial residues and valorising the remaining processing residues in the construction sector. In term of technological aspects, RemovAl will process several by-products from the aluminium sector and from other metallurgical sectors in Europe (SiO2 by-products, SPL, fly ash,and others). The different waste streams will be combined to allow for optimal and viable processing in different technological pilot nodes. The technologies and pilots in most cases have already been developed in previous or ongoing projects and through RemovAl they will be pooled together and utilized in a European industrial symbiosis network. In term of societal or non-technological aspects, RemovAl will gather key sectors like the non-ferrous metal and cement sectors in order to secure a true industrial symbiosis through a top-down approach considering also legislation and standardisation at European level in order to facilitate the implementation of the most promising technical solutions.