ExpectedOutcome:
Project results are expected to contribute to all the following expected outcomes:
- Increased availability, robustness, and safety of sustainable and efficient energy storage solutions to reduce energy losses, increase cost effectiveness and improve the environmental footprint of the energy system.
- Availability and functionality of innovative energy storage systems developed for specific system designs and applications.
- Increase technology leadership, competitiveness, and technology export potential of European storage technology industry.
- Enhanced sustainability of storage technologies, taking fully into account circular economy, social, economic, and environmental aspects in line with the European Green Deal priorities.
Scope:
Development of novel storage technologies, going beyond the state of the art, which are providing best-fit in form of CAPEX, OPEX, efficiency and sustainability and are adapted to specific needs of the energy system. Examples for such specific needs are responsiveness to energy system flexibility need, necessary storage amount or specific requirements due to off-grid situations. Focus is on longer-duration technologies, compared to lithium-ion technology, which is currently dominating new storage projects. In scope are novel chemical, mechanical, thermic storage technology solutions, excluding batteries and hydrogen. Innovative storage solutions should show clear innovation with respect to the state of the art e.g. through use of new advanced materials or new design solutions, always bearing in mind the objective of sustainability and circular economy, minimizing the environmental footprint, which should be underpinned by an LCA. The developed solutions should be highly performant in respect of expected future investment and operational costs and business cases in existing or emerging energy markets and go beyond the state-of-the art of existing storage solutions in respect of two or more of the following parameters:
- Sustainability;
- Technical performance, including round-trip efficiency;
- Lifetime;
- Non-dependency on location geographical particularities strategic independence (=no or limited use of CRMs);
- Land (space) footprint and/or cost.
Underlying basic material research is excluded.
Projects should address to the extent appropriate intelligent energy management systems, economic viability studies validated by industry and assessment of large-scale replication potential.
The selected projects are expected to contribute to the BRIDGE initiative[1], actively participate to its activities and allocate up to 2% of their budgets to that end. Additional contributions to the ‘Alliance for Internet of Things Innovation’ (AIOTI) and other relevant activities (e.g. clusters of digital projects and coordinating actions) might be considered, when relevant.
Specific Topic Conditions:
Activities are expected to achieve TRL 4-5 by the end of the project – see General Annex B.
[1]https://www.h2020-bridge.eu/
