CORE Innovation Group awarded 9 new Horizon EU projects


Author: CORE Innovation Centre

10th September 2024


CORE Innovation Group is joining forces with partners across the EU in a total of 9 new Horizon Europe projects. Our team is responsible for 4 of these successful research proposals.

The new projects bring our total to over 50 research projects, ongoing or completed, and increase our research budget to over 24 million €. We are very excited for these brand new R&I initiatives, a preview of which you can get below, and look forward to working with our partners to transform industry with the power of AI.

DEXPLORE

DEXPLORE seeks to revolutionise mineral exploration in Europe by developing innovative approaches to counter declining ore deposit discovery rates, focusing on deep-seated deposits critical for the economy's decarbonisation. The project emphasises engaging the general public and stakeholders, combining innovation at various levels, and utilising cutting-edge tools and technologies. Targeting essential materials across extensive geological terrains, DEXPLORE proposes a holistic innovation package, integrating UAV-assisted in-field mineral detection, advanced Earth Observation methods, and novel deep-land geophysics techniques to reach at least 600 m depth.

The initiative outlines the development of updated ore models, improving exploration technologies, and providing a visualisation platform. This platform will integrate geological, remote sensing, and geophysical data to enhance access to information about EU potential in critical raw materials, while increasing public awareness. DEXPLORE also aims to strengthen cooperation with strategic partner countries, establishing a robust Advisory Board and fostering collaboration with other EU initiatives for joint activities and result sharing.

DEXPLORE represents a collaborative effort to advance mineral exploration, contribute to sustainable sourcing of critical raw materials, and ensure EU's open strategic autonomy.

 

PRIM-ROCK

PRIM-ROCK addresses advanced techniques for the pre-processing of the raw material, calcination and roasting processes, that are commonly used in the mineral and cement industries, supplemented by simulations and decision support systems. The project aims to design, develop, and validate innovative and higher resource efficient processes, optimising existing ones and lowering the level of GHG emissions of extractive industries. AI data-driven models will be utilised and a digital twin for each process will be developed. Finally, the consortium will investigate waste reduction and re-utilisation strategies. The PRIM-ROCK solutions will be demonstrated in 3 different ASPIRE sectors, namely Minerals (magnesite, laterite), Cement (limestone) and Non-ferrous metals (sphalerite, chalcopyrite).

 

ALCHEMHY

ALCHEMHY aims to develop a set of innovative electrified processes to produce platform chemicals, particularly ammonia, and methanol and a Plasma-Catalytic Hydrogenation process (PCH). To this end, processes configuration will be optimised and novel materials and catalysts compatible with the electric input will be developed, optimising their performance, ramp-up times and enabling milder conditions. This will support the intensification and downscaling of the ammonia and methanol production, facilitating decentralised production integrated with downstream processes and renewable energy generation. The project will contribute to the development of a sustainable chemical industry, by decarbonising the production of both chemicals, supporting the creation of green jobs and improving the competitiveness of European industries, while contributing to a more resilient and secure energy system for the EU, reducing its dependence on imported fossil fuels.

 

StreamSTEP

StreamSTEP is a collaborative initiative by 31 organisations across the EU, Switzerland, and the UK, aimed at enhancing heating energy management in industrial processes. The project focuses on waste heat recovery across a wide temperature range using innovative heat exchanger prototypes and high-temperature heat pumps. Advanced manufacturing techniques and novel material alloys will enable these innovations, which will be demonstrated in five sectors: non-ferrous metals, ceramics, minerals, plastics, and refining. Integral to the project is a holistic process digital twinning pipeline, providing infrastructure for optimization agents to manage energy balance, storage, GHG avoidance, and data-driven LCA, ultimately recovering and reusing 50%-90% of waste heat with a payback period of less than three years, while boosting productivity and energy flexibility.

 

OPTIMINER

The OPTIMINER project addresses Europe's challenge of efficiently and sustainably recovering Critical Raw Materials (CRMs) from complex and low-grade ores. It aims to reduce Europe's heavy reliance on CRM imports by innovating in recovery methods and promoting sustainable mining practices. Key components include advanced technologies like an AI-enabled CRM Recovery Selector and a digital platform (DIGIMINER) for smart monitoring and control. ECOMINER focuses on sustainability through energy and water optimization, waste valorisation, and toxicity management. DEMOMINER showcases pilot lines across multiple countries, demonstrating practical applications, while GLOBEMINER promotes market awareness and strategic EU-Chile cooperation in CRM recovery.

 

Theseus

The Theseus project focuses on implementing Industrial-Urban symbiosis (I-US) through Hubs4Circularity (H4C) in Europe, starting with the Athens/Attica region in Greece. This initiative involves municipalities and industries collaborating to manage resources, waste, energy, water, and infrastructure in a sustainable manner. The project aims to establish the first-of-its-kind H4C hub in Greece, leveraging regional needs and digital technologies to develop solutions for water, energy, and materials. These efforts align with EU objectives, aiming for climate neutrality by 2050 and closing resource loops through innovative governance models and stakeholder cooperation. Theseus integrates existing innovations and aims to replicate successful solutions across other EU regions, drawing parallels to the transformative legacy of Theseus in Athenian mythology.

 

JOULIA

The JOULIA project aims to develop and demonstrate innovative induction and microwave heating processes for rubber vulcanisation and glue thermal activation in the rubber and plastic sectors, optimising them for flexibility, energy savings, and integration of renewable energy sources. These processes will be refined using digital models and simulations, ensuring adaptability, cost optimization, and compliance with health and safety standards, while predictive maintenance tools support ongoing operation. The project involves 16 partners from 7 EU countries and aims to enhance European industrial resilience, decrease fossil fuel dependence, and improve energy efficiency and sustainability, with potential applications in other sectors like food and ceramics.

 

rEUman

The European remanufacturing industry is essential for Europe's sustainable transition due to its energy, material, and functionality savings, along with significant socio-economic benefits like job creation and technological advancement. To enhance competitiveness and future-proof the industry, it is crucial to address barriers such as limited automation, poor human inclusion, and lack of digitalisation.

The rEUman project aims to develop a human-centric remanufacturing approach by improving factory-level regeneration and traceability and ensuring stability in the value-chain, while demonstrating its effectiveness in the automotive, home appliances, and optoelectronics sectors.

 

INBLANC

Significant challenges in the building and construction value chain stem from fragmentation and siloing, necessitating a systemic change through lifecycle perspectives to uncover interactions and opportunities. INBLANC aims to establish an open ecosystem focused on building lifecycle data, using low-cost data collection, consolidation in Building Digital Logbooks, and interfacing with EU dataspaces. The project will demonstrate its approach through six diverse demo cases, engage actors across the value chain, and integrate high-value services for energy planning, facility management, and renovation planning, aiming for near-market readiness.

 
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