Horizon Europe is the European Union (EU) funding programme for the period 2021 – 2027, which targets the sectors of research and innovation. The programme’s budget is around € 95.5 billion, of which € 5.4 billion is from NextGenerationEU to stimulate recovery and strengthen the EU&# Contact online >>
Horizon Europe is the European Union (EU) funding programme for the period 2021 – 2027, which targets the sectors of research and innovation. The programme’s budget is around € 95.5 billion, of which € 5.4 billion is from NextGenerationEU to stimulate recovery and strengthen the EU’s resilience in the future, and € 4.5 billion is additional aid.
Project results under this Call are expected to contribute to the development and demonstration of novel modular, compact, high performances, thermal energy storage solutions (TES) for heating, hot tap water and cooling for electricity load shifting. The integration of the solution within the energy networks of the building and its system management should allow different functions, such as peak load reduction, energy saving, energy cost minimization. Also is expected to develop and demonstrate a novel thermal energy storage system much more compact than state-of-the-art technologies, enabling the storage of heat and cold for domestic applications for periods typically of 4 weeks long.
The scope covers the whole spectrum of application of the thermal energy storage systems, ranging from short run to longer run, as well as from the smaller to bigger sizes:
The achievable storage density (kWh/m3) depends on the technological approach (sensible heat, PCM and TCM) and decreases drastically moving from the component to the system level.
EU contribution per project: between €7,00 and €8,00 million
(Publish Date: 29/10/2021-for internal use only)
European Commission, Directorate-General for Research and Innovation
For clarifications or additional information regarding specific programmes/calls, you may contact the relevant contact points whose details are provided for each specific call through the Portal.Για διευκρινίσεις ή πρόσθετες πληροφορίες σχετικά με συγκεκριμένα προγράμματα / προσκλήσεις, μπορείτε να επικοινωνήσετε με τα σχετικά σημεία επαφής των οποίων τα στοιχεία παρέχονται για κάθε συγκεκριμένη προσκλήση μέσω της Πύλης.
The recent extraordinary increase in installed photovoltaic (PV) capacity cannot be successful without integrating it with energy storage (ES) to store generated surplus power to be consumed later.
Technological developments and the trend of falling PV module and inverter prices makes it possible to apply economical solutions for hot water production for domestic hot water use and/or assisting space heating, based on the use of solar energy.
The combination of modern inverter technology, PV and domestic electric water heating systems provides a storage solution for PV energy with considerable cost saving potentials in the countries of the EU.
Many factors influence the ideal and economical size of such combined systems and their components, which need careful consideration and calculation.
For a better utilization of the potentials offered by this new solution more complex analyses and the investigation of the ways of linking thermal energy storage (TES) and PV systems and possibly other technologies is necessary.
How can the efforts to decrease the household consumption of energy used for heating water and space heating connected to the issue of integrating variable renewable energy sources into energy systems?
How can currently commercially available technology be used for storing electrical energy generated by photovoltaic systems in the form of heat energy?
What determines the potential energy and costs savings achieved by a combined system of a small photovoltaic power plant and a home electric water heating system for the households in the various countries of the European Union?
What are the potentials of the suggested system in terms of energy and costs savings in the context of households in the EU countries?
Wind and solar energy are commonly regarded as great alternatives to conventional fossil fuels thanks to their practical infinity and clean power production technologies. On the downside, however, due to the variable nature and geographically and climatically determined availability of RES, it is indispensable to make electricity networks more flexible and dynamic than traditional ones, characterized by centralized and vertically integrated structures, if a high share of RES is to be attained in the power supply. As a result, concepts for decentralized power production (e.g. stand-alone power systems, micro-grids and smart grids) have emerged to accommodate a high share of RES.7,8,9
With a view to decreasing the deployment of fossil fuels and protecting the environment, the European Parliament and the Council of the European Union have passed numerous directives and regulations that oblige the member states to promote energy efficiency and the deployment of renewable sources of energy in their economies. Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the energy performance of buildings 19 has had a great impact on national energy policies in terms of decreasing the energy consumption of buildings.16
Increasing efficiency and falling equipment prices have made PV one of the most cost-effective technologies of electricity generation that is available to residential electricity consumers, resulting in increasing installation rates, which are expected to continue in the future.24,25,26 Using PV systems, households produce electric power within their premises (behind the meter), with the combined benefits of utilizing more renewable energy and achieving financial savings by reducing the amount of electricity purchased from the network. Nevertheless, it also needs to be noted that the growing levels of distributed electricity production by PV modules may cause difficulties for power networks, as they were essentially made to accommodate only unidirectional energy flows.27
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