QSAR Lab Sp. z o.o.

QSAR Lab Ltd is looking for partners to work on HORIZON-CL5-2024-D3-02-02

Last update: Nov 10, 2023
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Last update: Nov 10, 2023 Last update: Nov 10, 2023


Deadline: Sep 5, 2024
Organization:QSAR Lab Sp. z o.o.
Project locations: EU 27 EU 27
Sectors: Energy Energy
Partner types: Academic Institution, Consulting Organization, Government Agency, NGO, Other Academic Institution, Consulting Organization, Government Agency, NGO, Other
Partner locations: EU 27, Europe Non EU 27 EU 27, Europe Non EU 27


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QSAR Lab Ltd (www.qsarlab.com/en/) - R&D activities concern the development of innovative ML methods and AI to support the design of efficient, safe, and sustainable materials with desired properties (advanced materials and technologies related to SSbD, Green Deal, Zero Emission, energy storage). QSAR Lab is a pioneer in predictive modeling and virtual design of advanced materials’ properties (electronic, mechanical, structural) and their risk assessment for human health and the environment.

Development of next generation synthetic renewable fuel technologies

TOPIC ID: HORIZON-CL5-2024-D3-02-02

Programme: Horizon Europe Framework Programme (HORIZON)
Call: Sustainable, secure and competitive energy supply (HORIZON-CL5-2024-D3-02)
Topic description


Project results are expected to contribute to all of the following expected outcomes:

  • Increase availability of disruptive emerging synthetic renewable fuel technologies.
  • Accelerate the readiness of cost-effective and highly performing future technologies of synthetic renewable fuels for all economy sectors.
  • Reinforce the European scientific basis and European technology export potential for synthetic renewable fuel technologies.

Development of next generation technologies for the production of novel synthetic renewable liquid and gaseous fuels from CO2, and/or renewable carbon, nitrogen, hydrogen or their compounds and from renewable energy. Process energy will also be renewable. Synergies with other renewable energy technologies can be explored. Focus should be on the high source to product conversion efficiency, process energy efficiency and carbon emission neutrality from the overall production. Overall, proposals are expected to improve competitiveness and minimize GHG emissions in the production process. Pathways via production of renewable hydrogen or renewable hydrogen ionic compounds from all forms and origins of renewable energy (e.g., electricity, direct sunlight, heat) are in scope. The new technologies should also address uses in fuel cells for all transport modes for electricity generation from renewable fuels used as renewable energy carriers with high conversion efficiency and low pollution. An assessment of the sustainability and the GHG emissions should be made based on a Life Cycle Analysis.

Projects should collaborate if appropriate with the Clean Hydrogen Joint Undertaking on aspects that require integration of hydrogen and are expected to contribute and participate to the activities of the TRUST database and the hydrogen observatory.