Approximately one third of all food produced globally is wasted every year throughout the whole value chain-from farmers to consumers. To extract the significant amounts of valuable compounds contained in these wastes, AgriMax will combine affordable and flexible processing technologies (ultrasound assisted and solvent extraction, filtration, thermal and enzymatic treatments) for the valorization of side streams from the horticultural culture and food processing industry to be used in a cooperative approach by local stakeholders. Through the selection of case-scenarios previously developed to a pilot scale by the participating RTOs and their industrial transfer in new applications as food additives, packaging and agricultural materials among others, the project will disclose the holistic potential of four new agro-value chains (residues and by products from the culture and processing of tomato, cereals, olives, potato). Any by-product generated along the production cycle will be valorized in a cascade manner to reach over 40% of high value use of the waste. This will lead to additional production of active ingredients in lower concentration, but also fibres, biogas and fertilizers from the left biomass (the latter with the aim of being used in closed loop in the culture of the crops used in the project to prevent soil impoverishing). An LCA and LCC will also study the best approach to minimize the environmental impact of the new value chains without jeopardizing the cost effectiveness of the operations. The pilot multi-feedstock bio-refinery processes will be validated in two demonstration sites in Spain and Italy. Societal, ethical, safety, techno-feasibility and regulatory aspects will be studied. Last but not least, a business model and platform for communication between the potential raw materials suppliers will be set up to maximize the use of the cooperative treatment plants throughout the year.

Only 31% of plastic is currently recycled and plastic packaging still have a deficient end of life. Thus, improvements are needed to provide cost effective solutions with high bio-based contents and suitable performances for demanding packaging applications, with a consumption of 19M ton/year, while still achieving compostability in mild conditions. Using sustainably sourced comonomers, additives and fillers to formulate novel PLA copolymers and compounds, the BIOnTOP project will deliver recyclable-by-design cost competitive packaging solutions that can be mechanically recycled, industrially/home composted or even suitable for anaerobic digestion. Moreover, the barrier properties of delivered bio-packaging trays, films and derived packaging, will be enhanced using removable protein-based coatings and a novel fatty acid grafting technology to decrease permeability and compete with fossil packaging. In the field of textile packaging , most used coatings are not bio-based and of different nature from the coated fibres, making material or organic recycling extremely difficult. New PLA coatings or fatty grafting will allow reprocessing without significant loss of properties. BIOnTOP packaging, based on >85% renewable resources, will be compatible with a broad range of packaging applications’ requirements but also multiple end of Life options. Our materials will be biodegradable in home composting conditions but also recyclable for multiple use secondary packaging. Based on new circular bioeconomy value chains, BIOnTOP will generate growth for EU bioplastics and end users’ industries in the food and personal care sectors with potential in many fields: BIOnTOP production is estimated to reach close to 9.6 Mton per year by 2030, overall leading to €40 M turnover and 170 new jobs. All in all, reducing the environmental footprint of plastics, our new bio-based packaging will have a significant positive social and environmental impact.

VIBES project presents an innovative solution to resolve the end-of-life issues of thermoset composites based on the development of a new green technology focused on the controlled separation and recovery of composite material components by means of developing customised biobased bonding materials (BBM). BBM are biobased chemical moieties that will decompose under specific external stimuli (temperature, UV or electrical pulse) allowing the separation between the matrix and the reinforcing material, and facilitating the dissociation of the polymer chains of the resins to favour their efficient processing and recycling through a green washing bath, recovering the monomers/oligomers and fibres for their upcycling into new products. VIBES will study and combine three different chemical approaches to obtain BBM: vitrimers, Diels-Alder, and supramolecular architectures. VIBES project will directly contribute to achieve SIRA’s objectives in KPI1, KPI2, KPI5 and KPI8 and to demonstrate the solution decreasing the amount of non-biodegradable polymers sent to disposal or discharged to the environment by at least 40%. VIBES consortium involves 13 partners (industrially driven): 4 RTD (AITIIP, LEITAT, ULIM and DITF), 7 SME (SP, BCIRC, F&D, ARCHA, Q-PLAN, IDEC and JUNO), 1 Large Companies (ACC), and 1 OTHER (PLATA) accounting to 3 BIC associated (AITIIP, LEITAT, and ULIM). The proposed 48-months will comprise a total estimated budget of 5,299,800 €; being the 20.3% covered by consortium own contribution (in-kinds) and adding 524,311€ in additional investments during the project implementation and 9,385,000€ envisaged to upgrade TRL after the end of the project. Benefits will be significant in terms of companies growth (23.2%), increasing jobs (37 direct, 1800 indirect) and turnover (124M€) by promoting at least 2 new sector interconnections in the new created “Intrinsic Recyclable Thermoset Composites Value Chain”

Only in the EU, we generate every year around 89M tonnes of Food Loss and Waste (FLW), accounting for 20% of the total food produced, with costs estimated at ?143 Bn, impacting each stage of the Food Value Chain. In SISTERS, we propose a set of systemic innovations addressed to reduce FLW generated in every stage of the Food Value Chain in Europe that will solve main existing challenges in Production, Processing, Marketing (retailing/wholesaling), Consumption, and the Logistics among stages. SISTERS will design the 1st European Short Chain Platform for farmers to sell their discarded production, favouring local economies, providing access to nutritious and healthy food to the less favoured consumers. Smart and reusable food containers will be designed to diminish food losses during transportation, maintain bulk and packed food in ideal conditions with new accurate sensors allowing immediate reaction. Moreover, to improve the preservation and quality of food a set of bio-based and home-compostable packaging solutions will be created reducing their potential negative impacts in the environment. A novel SISTERS Seal of Excellence will promote sustainable practices among retailers. While the information provided to the consumers with QR and dynamic labelling incorporated in the packaging is expected to impact on retailers and consumers sustainable awareness, thus reducing the discard of food and associated FW. With these cross-sectorial innovations, we will achieve an ambitious environmental & economic impact of the current dynamics in the food system, contributing to the reduction of FLW and to change the unsustainable consumer behaviours. With the support of the EC, SISTERS will be a key EU project addressing the problem in a holistic way, reducing FLW by 27.4% and CO2 emissions by around 20% in the case studies. Our interdisciplinary SISTERS consortium consists of 18 partners from 8 European countries, with wide expertise in fighting FLW from Farm

The MANDALA project presents a sustainable solution for the plastic packaging sector which tackles 3 pillars: eco-design, dual functionality & end-of-life; with the aim to find a final solution based on multilayer monomaterial packaging with functionalities compared to multimaterial ones and fully produced with biobased & recycled polymers in order to reach a full circularity of resources. MANDALA will develop new adhesives with dual functionality (easy to split and barrier properties) by incorporating thermoreversible covalent bonds and radiation absorbing nanoparticles, which at the same time will generate a tortuous path enhancing barrier properties that are critical for end-user. In addition, new polymer blends with increased biobased and recycled content of film layers will be developed. Their combination in a multilayer product will set the basis for new food (meat, ready-to-eat) and pharma (pill blister) packaging products. MANDALA project will demonstrate that the de-lamination technology can be up-scaled and applied to reach intermediate solutions for multilayer/multimaterial packaging (being biobased or not) progressively helping to become the end-of-life more sustainable by recovering all fractions and providing clean streams for their biodegradation or recycling. MANDALA project will directly contribute to achieve KPI 1, KPI 2, KPI 6, KPI 8 and demonstrate the solution decreasing the end-of-life costs and CO2 emissions in more than a 30%. It will develop innovations in 3 KETS. MANDALA consortium involves 12 partners (4RTD, 5SME, 1SME cluster and 2 Large Companies) accounting 2 BIC full members and 2 associated. The 42-months project will comprise a total estimated budget of 4,573,892,5€ and requested funding of 3,650,921,75€. There is a strong engagement of the industry with 922,970,75€ in-kinds (20,2%) and 4,869,731€ in additional activities during the project (machine acquisition) and 3,820,000€ envisaged to upgrade TRL after the end of the project.