Summary
The project will deploy and demonstrate local storage technologies which have reached TRL 5-6 in a real electrical grid, and will develop ICT tools to exploit the synergies between them, the smart grid and the citizens. The demonstration in this real environment will be driven by five use cases covering low voltage and medium voltage scenarios and a wide range of applications and functionalities. Viable business models will be defined for the cases, and proposal for changes in regulations will be made. Dissemination and exploitation activities will ensure these results drive market uptake of storage technologies.
The expected outcomes of the project are:
- An energy management system to be used by the energy companies to manage the energy of their associates´ storage devices.
- Control systems to integrate management and decision support tools that enable the integration of renewable generation, forecasting and storage systems into the smart-grid.
- Innovative storage solutions:
• HESS (Hybrid Energy Storage System – Ultracapacitors + Li-ion batteries)
• Second Life Electric Vehicle Batteries
• Home Hybrid technologies (Ultracapacitors + Li-ion batteries)
- Business models to allow easier deployment of energy storage technologies into the electricity market
- Proposed changes to regulators in the social and economic areas in order to lower barriers to the deployment of distributed storage for the defined use cases.
- Life Cycle Assessment / Life Cycle Cost of the storage systems used in the project
The project will achieve topic expected impacts and also environmental and socioeconomic impacts, like carbon emissions reduction and lowering the EU dependency of fossil fuels.
The project gives Energy Services Companies (ESCO) a main role in the deployment and exploitation of storage solutions. The consortium foresees the creation of an ESCO to exploit demonstrated business models after the project.
The consortium is designed to meet the requirements of this innovation action, with strong industrial members, innovative SMEs, research organizations, experts, DSO and a follower smart-city. This consortium is capable of bringing innovative technologies to socioeconomically viable solutions.
The expected outcomes of the project are:
- An energy management system to be used by the energy companies to manage the energy of their associates´ storage devices.
- Control systems to integrate management and decision support tools that enable the integration of renewable generation, forecasting and storage systems into the smart-grid.
- Innovative storage solutions:
• HESS (Hybrid Energy Storage System – Ultracapacitors + Li-ion batteries)
• Second Life Electric Vehicle Batteries
• Home Hybrid technologies (Ultracapacitors + Li-ion batteries)
- Business models to allow easier deployment of energy storage technologies into the electricity market
- Proposed changes to regulators in the social and economic areas in order to lower barriers to the deployment of distributed storage for the defined use cases.
- Life Cycle Assessment / Life Cycle Cost of the storage systems used in the project
The project will achieve topic expected impacts and also environmental and socioeconomic impacts, like carbon emissions reduction and lowering the EU dependency of fossil fuels.
The project gives Energy Services Companies (ESCO) a main role in the deployment and exploitation of storage solutions. The consortium foresees the creation of an ESCO to exploit demonstrated business models after the project.
The consortium is designed to meet the requirements of this innovation action, with strong industrial members, innovative SMEs, research organizations, experts, DSO and a follower smart-city. This consortium is capable of bringing innovative technologies to socioeconomically viable solutions.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/646463 |
| Start date: | 01-01-2015 |
| End date: | 31-12-2018 |
| Total budget - Public funding: | 11 404 646,96 Euro - 8 993 598,00 Euro |
Cordis data
Original description
The project will deploy and demonstrate local storage technologies which have reached TRL 5-6 in a real electrical grid, and will develop ICT tools to exploit the synergies between them, the smart grid and the citizens. The demonstration in this real environment will be driven by five use cases covering low voltage and medium voltage scenarios and a wide range of applications and functionalities. Viable business models will be defined for the cases, and proposal for changes in regulations will be made. Dissemination and exploitation activities will ensure these results drive market uptake of storage technologies.The expected outcomes of the project are:
- An energy management system to be used by the energy companies to manage the energy of their associates´ storage devices.
- Control systems to integrate management and decision support tools that enable the integration of renewable generation, forecasting and storage systems into the smart-grid.
- Innovative storage solutions:
• HESS (Hybrid Energy Storage System – Ultracapacitors + Li-ion batteries)
• Second Life Electric Vehicle Batteries
• Home Hybrid technologies (Ultracapacitors + Li-ion batteries)
- Business models to allow easier deployment of energy storage technologies into the electricity market
- Proposed changes to regulators in the social and economic areas in order to lower barriers to the deployment of distributed storage for the defined use cases.
- Life Cycle Assessment / Life Cycle Cost of the storage systems used in the project
The project will achieve topic expected impacts and also environmental and socioeconomic impacts, like carbon emissions reduction and lowering the EU dependency of fossil fuels.
The project gives Energy Services Companies (ESCO) a main role in the deployment and exploitation of storage solutions. The consortium foresees the creation of an ESCO to exploit demonstrated business models after the project.
The consortium is designed to meet the requirements of this innovation action, with strong industrial members, innovative SMEs, research organizations, experts, DSO and a follower smart-city. This consortium is capable of bringing innovative technologies to socioeconomically viable solutions.
Status
CLOSEDCall topic
LCE-08-2014Update Date
26-10-2022
Images
No images available.
Geographical location(s)
Search
Organisations
-
| AYESA ADVANCED TECHNOLOGIES SA (Coördinator)
-
| AYUNTAMIENTO DE SANTANDER
-
| CENTRO DI RICERCA, SVILUPPO E STUDI SUPERIORI IN SARDEGNA SOCIETÀ A RESPONSABILITÀ LIMITATA
-
| CORPORACION ZIGOR SA
-
| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
-
| FUNDACION AYESA
-
| NORDSEEHEILBAD BORKUM GMBH
-
| POWERTECH SYSTEMS
-
| RISE Research Institutes of Sweden
-
| SCHNEIDER ELECTRIC GMBH
-
| Steinbeis Europa Zentrum of Steinbeis Innovation gGmbH
-
| UNIVERSITA DEGLI STUDI DI CAGLIARI (UNICA)
-
| VANDENBORRE ENERGY SYSTEMS NV
-
| WILLIAMS ADVANCED ENGINEERING LIMITED
-
| WILLIAMS GRAND PRIX ENGINEERING LIMITED