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EURO-FUNDING EU PROJECTS SOCIEDAD LIMITADA

Country: Spain

EURO-FUNDING EU PROJECTS SOCIEDAD LIMITADA

8 Projects, page 1 of 2
  • Funder: European Commission Project Code: 101167361
    Overall Budget: 956,608 EURFunder Contribution: 956,608 EUR

    The ATM-EXCITE project will identify the requirements of ATM systems for civil-military aviation coordination and cybersecurity and develop a set of solutions. The project will engage with stakeholders throughout the solution development phase to ensure that the proposed solutions meet their needs. By engaging with stakeholders and using a rigorous approach to solution development, the project team is confident that it will develop effective and implementable solutions to the challenges of civil-military aviation coordination and cybersecurity. Once the requirements have been identified, the project team will design, develop, and test proposed solutions using a variety of approaches, including system design, software development, and cybersecurity testing. The project team will design system architectures for the proposed solutions. The system architectures will take into account the requirements of ATM systems, cybersecurity best practices, and operational constraints. The SESAR ER call explicitly emphasizes the need for enhanced security, confidentiality, and anonymisation in the realm of military aviation data. The call also draws attention to the vulnerabilities associated with real-time airborne position data. Our proposed solutions aim to directly address these vulnerabilities by introducing methods for verification of ADS-B data and selective encryption and model the interaction between civil and military systems in an efficient manner. This strategic alignment ensures that the solutions directly impact the priorities outlined in the European ATM Master Plan, further promoting the harmonisation of civil and military aviation in the European sky. Within the work areas of improved security of military operations and digitalisation for Airspace Management (ASM) and mission trajectory management (MTM), ATM-EXCITE proposes 5 research solutions. In a second phase ATM-EXCITE will identify synergies among them in order to propose one or several integrated solutions.

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  • Funder: European Commission Project Code: 101172835
    Overall Budget: 2,994,870 EURFunder Contribution: 2,994,870 EUR

    The current drive-train solutions for bottom-fixed offshore wind turbines do not necessarily work well for floating wind turbines, especially when it comes to increasing the size of the turbines beyond the current state of the art. The increasing nacelle weight makes it difficult to develop floating platforms that are both technically and economically viable beyond 15 MW. Also, high repair costs of current drive-train solutions are making sites far off coast (which would be technically viable for floating wind turbines) economically unacceptable. Innovation is needed to develop new solutions for floating wind turbines that can reduce the weight of nacelle and rotor and subsequently also of the supporting structures, while maintaining or increasing energy production and decreasing repair costs. This project proposes to develop a disruptive, compact and lightweight drive-train solution, that offers significant advantages in terms of mass, turbine and repair costs, scalability, critical materials usage, and social and environmental impacts. The LIGHTWIND project aims at demonstrating the technical feasibility of the concept and at evaluating the economic, social, and environmental benefits by comparing it to existing 15 MW turbine reference models. Additionally, the project will demonstrate that these benefits allow the scaling of floating offshore wind turbines to 22 and 30 MW.

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  • Funder: European Commission Project Code: 101192383
    Overall Budget: 4,344,180 EURFunder Contribution: 4,344,180 EUR

    The CIRCUBATT project aims to redefine the European battery sector by setting new benchmarks through the integration of artificial intelligence, data analytics, and sustainable practices. By tackling critical bottlenecks and employing cutting-edge technologies, CIRCUBATT seeks to boost the competitiveness of the European industry while aligning with the EU’s environmental and economic objectives. Its holistic approach promises a more efficient, reliable, and sustainable battery value chain, prepared to address Europe's future energy demands and the global challenge of climate change. The project combines advanced material sciences, innovative business models, and leading digital technologies to deploy a range of solutions tested across various real-world scenarios. These solutions will span the entire battery lifecycle—from design and manufacturing to end-of-life recycling—showcasing adaptability, efficiency, and sustainability in practical applications. This initiative aims to reduce Europe’s reliance on critical raw materials, diminish environmental impacts, and strengthen the continent’s position in the global battery market. CIRCUBATT will explore innovative business models, such as Battery-as-a-Service (BaaS) and develop cross-industry tools like battery sustainability analysis and artificial intelligence-driven data analytics. Additionally, it will advance the design of battery cells and packs that support effective aging analysis and facilitate dismantling for second-life use or recycling. Pilot studies within the project will validate the feasibility of these innovations. Ultimately, the project will deliver new products, business models, and tools poised to make significant contributions to the circularity, resilience, and sustainability of the European battery value chain.

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  • Funder: European Commission Project Code: 101225631
    Overall Budget: 4,673,460 EURFunder Contribution: 4,673,460 EUR

    The ForMAT project addresses limitations in forensic DNA profiling, particularly in criminal cases, disaster victim identification (DVI), and legal age assessment for asylum claimants. Traditional DNA methods struggle with unsolved cases, mass disasters, and legal age estimation. ForMAT focuses on DNA methylation (DNAm) as a solution, using epigenetic markers to estimate age and lifestyles, as well to predict tissue type. This approach enhances criminal investigations by narrowing suspect profiles and expedites missing person identification in mass disasters, improving the return of remains to families. In asylum cases, DNAm offers a radiation-free alternative for assessing age, reducing reliance on X-rays. ForMAT builds on the VISAGE project, aiming to advance these tools from Technology Readiness Level (TRL) 5 to TRL 7. By developing new DNAm kits and a bioinformatic applicaiton including forensic prediction models, ForMAT enables law enforcement to estimate age, to infer lifestyles and to identify the tissue-of origin from DNA samples. Kits include a DNAm somatic kit, as well as a DNAm germ-line kit for criminal cases, a DNAm DVI kit for guiding in the identification process of human remains, and a DNAm legal age kit for asylum assessments. The integration of Next Generation Sequencing (NGS) technologies, including second- and third-generation sequencing, enhances forensic workflows and ensures high accuracy even with degraded samples. The ForMAT consortium , consisting of 11 EU institutions, leverages expertise across countries and disciplines to bring these innovations to real-world use. Members include leading universities, police bodies, and forensic institutes, committed to scaling up, testing, and validating these tools across Europe. Their involvement in international forensic boards ensures widespread dissemination, aiming for broad adoption of ForMAT’s epigenetic molecular tools in forensic science, ultimately enhancing investigative practices and public safety.

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  • Funder: European Commission Project Code: 101181841
    Overall Budget: 4,493,840 EURFunder Contribution: 4,493,840 EUR

    Extreme aquatic environments account with a vast and yet largely unexplored biodiversity that holds immense potential for novel active biomolecules with multiple industrial applications. However, the harsh and challenging conditions such as accessibility, environmental hazards, ineffective or inaccurate sampling techniques, and poor bioprospecting pose significant obstacles to their exploration and sampling. Overcoming these challenges is crucial for unlocking the potential of extremophiles to benefit society. The EXPLORA project will depart from two extreme aquatic ecosystems selected such as the acidic Rio Tinto in Spain and the psychrophilic Antarctic Region. By developing innovative, accurate, and sustainable tailor-made sampling methods, employing cutting-edge bioprospecting techniques, and utilising state-of-the-art analytical tools for isolation of bioactive substances, in the EXPLORA project it is expected to find and isolate microorganisms which produce novel antimicrobial and antioxidants compounds, sialylated extracellular polymeric substances and, plastic-degrading acidophilic enzymes which applicability will be validated for pharmaceutical, cosmetic, nutraceutical, and for PET recycling purposes, respectively. Additionally, deeper understanding on the legal frameworks in the planned contexts such as the Nagoya Protocol and Antarctic Treaty Legal Requirements is also envisaged. By achieving these objectives, EXPLORA will contribute to the sustainable exploration of biodiversity hotspot regions, advancing the development of next-generation sampling methods, expanding bioprospecting from the screening for new chemicals into biological function, and contributing to the understanding of potential trade-offs inherent in the exploitation of ocean and other aquatic biodiversity.

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