Flexibility enablers and system flexibility

  • Distributed Renewable resources Exploitation in electric grids through Advanced heterarchical Management

    Project dates: 01. Sep 2013 - 31. Dec 2016

    Objective

    The DREAM project will lay the foundations for a novel heterarchical management approach of complex electrical power grids, providing new mechanisms for consumer involvement in economical and ecological electricity use as well as stable and cost effective integration of distributed renewable resources. Applying the principles of autonomous agent-based systems to the control and management of the electricity distribution grid will allow the system to constantly adjust to current operational conditions and make it robust to exogenous disturbances. In turn, this will allow for greater penetration of intermittent resources and will make the distribution grid more resilient to failures. DREAM will include several layers of controls for normal, congested and post-contingency situations that will use different coordination strategies ranging from market-based transactions to emergency demand response and create ad-hoc federations of agents that will flexibly adjust their hierarchy to current needs. The system will transition smoothly between control layers depending on local operational conditions, so that responses to disturbances will be sized precisely, margins will be used parsimoniously and full network flexibility will be tapped. The system will involve only limited data transfers and no centralized control, promoting extensibility, heterogeneity and easy deployment across countries with different network architectures and hardware manufacturers. DREAM will demonstrate the economic and technical feasibility of these novel control mechanisms thanks to several real-world small-scale pilots dedicated to different use-cases, and computer simulations will be used to study further scalability. Furthermore, economic viability will be model and examined for the various actors in the grid taking into account the unpredictability of consumer power production, market dynamics, novel regulation schemes and the adoption of DREAM mechanisms over time.

    Partners

    Number of partners: 14
    Site numbers:

    NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK TNO

    FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.

    ACTVALUE CONSULTING & SOLUTIONS SRL

    TELVENT ENERGIA SA

    KEMA NEDERLAND BV

    SOCIETA PER AZIONI ESERCIZI AEROPORTUALI SEA

    SCHNEIDER ELECTRIC ESPANA SA

    UNIVERSITAET ST. GALLEN

    UNIVERSITAET KASSEL

    ELECTRICITE DE STRASBOURG SA

    TXT E-SOLUTIONS SPA

    Partner Others

    DNV NETHERLANDS BV

    DSOs

    DIACHEIRISTIS ELLINIKOU DIKTYOU DIANOMIS ELEKTRIKIS ENERGEIAS AE

    Research & Innovation

    INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS

    Key Exploitable Results

    • TRL

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  • Microbiological conversion of renewable electricity and CO2 to a natural gas quality bio-fuel

    Project dates: 01. Jun 2015 - 31. May 2016

    Objective

    OWS wants to commercialize a biological process that converts CO2 and H2 (after electrolysis of renewable electricity) to CH4 (main component in natural gas). Lab and pilot tests have been and are being conducted and show promising results. A next step in the development is creating a sound business model for further commercialization, and the construction of a first plant at full-scale for further optimization and demonstration purposes to potential clients. As renewable energy sources are gaining more ground in the electricity mix in Europe, imbalance problems on the electricity grid will increase in frequency. The proposed concept offers a solution to this imbalance problem by converting excess electricity via hydrolysis to H2 and using (waste) CO2 to CH4 that can be injected into the gas grid. The advantage of the proposed system is the small scale (< 10 MWe), so the conversion can be done near the production sites. When there is an excess of renewable electricity, fees are paid to the operators of renewable electricity for not producing, thus avoiding grid imbalance. Although this approach is understandable from a balancing perspective, it is contradictory to a sustainable approach and in conflict with the existing renewable energy targets. Therefore, producers of renewable electricity are a first important target group for our technology. CO2-intensive industries are a second important target group. By recycling their waste CO2, they become more sustainable, and it can generate extra revenues from buffering activities. During the feasibility study, OWS wants to elaborate a sound business plan for further development of the technology. It should result in a clear vision on technical, economic and legal issues. The final goal is to build a first full-scale demonstration plant in phase 2, which can serve as a test facility for further optimization (technical/biological), but also as a demonstration plant for potential customers.

    Partners

    Number of partners: 1
    Site numbers:

    ORGANIC WASTE SYSTEMS NV

    Key Exploitable Results

    • TRL

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  • PRO-S: The first highly energy efficient and eco-friendly bio based-photovoltaic module that works without sunlight or battery consumption for Smart buildings

    Project dates: 01. Dec 2019 - 30. Apr 2020

    Objective

    With the ever-increasing demand for energy, the search for alternative energy sources has increased. Solar energy is by far the most abundant form of renewable energy and has the potential to partially replace fossil fuels, but its mass adoption is hindered by its weather dependency, the cost of their energy storage systems and certain environmental concerns. PRO-S® is the first flexible, semitransparent and toxic-free photonanobiotech module that uses conductive small organic molecules (proteins from bacteriorhodopsin cultivation) to produce electricity. It is an outperformer for our target markets since: 1) it is the first product capable of generating electricity and store it as hydrogen upon needs, obtaining higher efficiency in cloudy and sunny days compared to standard PV (60% and 16%, respectively); 2) it has low maintenance costs and environmental impact since no batteries are needed and is 60% recyclable; 3) it is a low cost energy source since the manufacturing is cheap (30% lower than standard PV) and independent from market fluctuations; and 4) it can be easily integrated and customized to any size. Being our first opaque PV module currently market for parking meter and table boards (eboard), our next goal is to fully develop and market a more complex and semitransparent PRO-S® module for its application as solar panel for buldings and glass windows. We will take advantage of our current partners and distributor network (from previous product eboard) to successfully deploy our improved product into the construction and building market. We plan to conduct a Feasibility Study to analyze the technical, commercial and financial viability of our advance product PRO-S® to ensure its market deployment and uptake. We estimate to reach a turnover of €38 Mio and to create a total of 25 direct jobs -and 500+ indirect jobs- in 2024, with an NPV of €8.2 Mio.

    Partners

    Number of partners: 1
    Site numbers:

    PROTON NEW ENERGY FUTURE SL

    Key Exploitable Results

    • TRL

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  • Enhanced substrates and GaN pilot lines enabling compact power applications

    Project dates: 01. May 2015 - 30. Jun 2018

    Objective

    The key objective of PowerBase “Enhanced substrates and GaN pilot lines enabling compact power applications” is to ensure the availability of Electronic Components and Systems (ECS) for key markets and for addressing societal challenges, aiming at keeping Europe at the forefront of the technology development, bridging the gap between research and exploitation, creating economic and employment growth in the European Union. The project PowerBase aims to contribute to the industrial ambition of value creation in Europe and fully supports this vision by addressing key topics of ECSEL multi annual strategic plan 2014. By positioning PowerBase as innovation action a clear focus on exploitation of the expected result is primary goal. To expand the limits in current power semiconductor technologies the project focuses on setting up a qualified wide band gap GaN technology Pilot line, on expanding the limits of today’s silicon based substrate materials for power semiconductors, improving manufacturing efficiency by innovative automation, setting up of a GaN compatible chip embedding pilot line and demonstrating innovation potential in leading compact power application domains. PowerBase is a project proposal with a vertical supply chain involved with contributions from partners in 7 European countries. This spans expertise from raw material research, process innovation, pilot line, assembly innovation and pilot line up to various application domains representing enhanced smart systems. The supporting partners consist of market leaders in their domain, having excellent technological background, which are fully committed to achieve the very challenging project goals. The project PowerBase aims to have significant impact on mart regions. High tech jobs in the area of semiconductor technologies and micro/nano electronics in general are expressed core competences of the regions Austria: Carinthia, Styria, Germany: Sachsen, Bavaria and many other countries/ regions involved.

    Partners

    Number of partners: 39
    Site numbers:

    SLOVENSKA TECHNICKA UNIVERZITA V BRATISLAVE

    QUANTEMOL LIMITED

    NANO DESIGN SRO

    CISC SEMICONDUCTOR GMBH

    FOR OPTIMAL RENEWABLE ENERGY SYSTEMS SL

    INFINEON TECHNOLOGIES AUSTRIA AG

    MAX PLANCK INSTITUT FUR EISENFORSCHUNG GMBH

    BESI NETHERLANDS BV

    SILTRONIC AG

    FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.

    INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM

    INFINEON TECHNOLOGIES AG

    INFINEON TECHNOLOGIES ITALIA SRL

    ELTEK AS

    • Partner
    • ELTEK AS
    • Norway
    • Budget: 378, 503

    FABMATICS GMBH

    UNIVERSITA DEGLI STUDI DI PADOVA

    AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS

    AMS AG

    • Partner
    • AMS AG
    • Austria
    • Budget: 875, 670

    FREIBERGER COMPOUND MATERIALS GMBH

    SPTS TECHNOLOGIES LIMITED

    Pac Tech - Packaging Technologies GmbH

    SILICON AUSTRIA LABS GMBH

    KAI KOMPETENZZENTRUM AUTOMOBIL - UND INDUSTRIEELEKTRONIK GMBH

    FRONIUS INTERNATIONAL GMBH

    UNIVERSITETET I OSLO

    SOITEC BELGIUM NV

    UNIVERSITY OF BRISTOL

    NAMLAB GGMBH

    BESI AUSTRIA GMBH

    GREEN POWER TECHNOLOGIES SL

    UNIVERSITAET GRAZ

    MEMSSTAR LIMITED

    PLANSEE SE

    • Partner
    • PLANSEE SE
    • Austria
    • Budget: 59, 306.6015625

    TRYMAX SEMICONDUCTOR EQUIPMENT BV

    BAUMANN GMBH

    NANOFOCUS AG

    INFINEON TECHNOLOGIES DRESDEN GMBH& CO KG

    TECHNISCHE UNIVERSITAET DRESDEN

    IKERLAN S. COOP

    Key Exploitable Results

    • TRL

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  • Geographical Islands FlexibiliTy

    Project dates: 01. Jan 2019 - 30. Jun 2023

    Objective

    GIFT is an innovative project that aims to decarbonise the energy mix of European islands. European islands have to abide by the law of their countries that push toward a greener energy mix to comply with the European and international agreements. GIFT is willing to develop innovative systems to allow islands to integrate vast amount of renewables. In order to reach that goal, the coordinator INEA has built a well-balanced consortium gathering a total of 17 partners of 7 countries, including 1 industrial partner, 9 SMEs, two municipalities, 3 research centres and 2 universities. Through the development of multiple innovative solutions, such as a virtual power system, energy management systems for harbours, factories, homes, better prediction of supply and demand and visualisation of those date through a GIS platform, and innovative storage systems allowing synergy between electrical, heating and transportation networks, GIFT will increase the penetration rate of renewable energy sources into the islands’ grid, reducing their needs for diesel generation and thus decreasing the greenhouse gases emissions directly related to it. During 4 years, the partners will develop and demonstrate the solutions in two lighthouse islands, in Hinnøya, Norway’s largest island and the small island of Procida in Italy and study the replicability of the solution in a Greek and Italian islands at the minimum, respectively Evia and Favignana. The complementarity of these islands in terms of climate, energy mix, population and activities is meant to have solutions adaptable to different situations. To even increase this, the GIFT project has started to build a replication board with associations that already gather 1640 European islands that will be able to study replication for their territories. The consortium aims to provide sustainable solutions with a strong market uptake and plans to widely disseminate their solutions and replicate it on all relevant islands in the EU and beyond.

    Partners

    Number of partners: 16
    Site numbers:

    ETREL SVETOVANJE IN DRUGE STORITVE DOO

    ODIT-E

    • Partner
    • ODIT-E
    • France
    • Budget: 304, 281

    SYLFEN

    • Partner
    • SYLFEN
    • France
    • Budget: 1, 053, 500

    CENTRO DE INVESTIGACAO EM ENERGIA REN - STATE GRID SA

    CENTRE FOR RENEWABLE ENERGY SOURCES AND SAVING FONDATION

    INTRACOM SA TELECOM SOLUTIONS

    HAFENSTROM AS

    HALOGALAND KRAFT NETT AS

    ASSOCIATION POUR LA RECHERCHE ET LE DEVELOPPEMENT DES METHODES ET PROCESSUS INDUSTRIELS

    HARSTAD KOMMUNE

    ELESTOR BV

    TRIALOG

    • Partner
    • TRIALOG
    • France
    • Budget: 648, 222

    COMUNE DI PROCIDA

    EUROQUALITY SARL

    NORGES TEKNISK-NATURVITENSKAPELIGE UNIVERSITET NTNU

    UNIVERSITA DEGLI STUDI DI ROMA LA SAPIENZA

    Key Exploitable Results

    • TRL

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  • Smart system of renewable energy storage based on INtegrated EVs and bAtteries to empower mobile, Distributed and centralised Energy storage in the distribution grid

    Project dates: 01. Jan 2017 - 31. Dec 2019

    Objective

    An inspiration for INVADE are the world-wide agreements on minimisation of human caused effects to climate change and energy efficiency targets set at the European Union with ambitious goals for reduction of greenhouse gas emission and for increase of renewable energy share. To enable a higher share of renewable energy sources to the smart grid and gain a traction in the market place a few critical barriers must be overcome. There is a deficiency of 1) flexibility and battery management systems 2) exploration of ICT solutions based on active end user participation 3) efficient integration of energy storage and transport sector (EVs), 4) novel business models supporting an increasing number of different actors in the grid. INVADE addresses these challenges by proposing to deliver a Cloud based flexibility management system integrated with EVs and batteries empowering energy storage at mobile, distributed and centralised levels to increase renewables share in the smart distribution grid. The project integrates different components: flexibility management system, energy storage technologies, electric vehicles and novel business models. It underpins these components with advanced ICT cloud based technologies to deliver the INVADE platform. The project will integrate the platform with existing infrastructure and systems at pilot sites in Bulgaria, Germany, Spain, Norway and the Netherlands and validate it through mobile, distributed and centralised use cases in the distribution grid in large scale demonstrations. Novel business models and extensive exploitation activities will be able to tread the fine line between maximizing profits for a full chain of stakeholders and optimizing social welfare while contributing to the standardization and regulation policies for the European energy market. A meaningful integration of the transport sector is represented by Norway and the Netherlands pilots – with the highest penetration of EVs worldwide.

    Partners

    Number of partners: 12
    Site numbers:

    LYSE AS

    • Partner
    • LYSE AS
    • Norway
    • Budget: 1, 172, 680

    STICHTING ELAADNL

    GREENFLUX ASSETS BV

    ESMART SYSTEMS AS

    NEWEN PROJECTS GMBH

    UNIVERSITAT POLITECNICA DE CATALUNYA

    Schneider Electric Norge AS

    NORGES TEKNISK-NATURVITENSKAPELIGE UNIVERSITET NTNU

    ALBENA AD

    • Partner
    • ALBENA AD
    • Bulgaria
    • Budget: 476, 962

    ESTABANELL Y PAHISA ENERGIA SA

    BADENOVA AG & CO KG

    Research & Innovation

    TEKNOLOGIAN TUTKIMUSKESKUS VTT OY

    Key Exploitable Results

    • TRL

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  • Decarb City Pipes 2050 - Transition roadmaps to energy efficient, zero-carbon urban heating and cooling

    Project dates: 01. Jul 2020 - 31. Aug 2023

    Objective

    Climate urgency calls on all political levels to act more stringent and faster. This proposal is the first to unite cities across Europe to work out actionable, spatially differentiated transition roadmaps to decarbonise heating and cooling for buildings in 2050, taking up the challenge to phase out natural gas in heating.

    Transitioning the sector to energy-efficient, renewable and zero-carbon solutions is key to meet the EU climate and energy targets. Given the long life-cycles of the grid infrastructures involved, there is an urgency to start the planning of this transition today. But how? What first? Which systems? How to govern this process? Increasing complexity of the energy system together with technological uncertainties require a high level of knowledge and skills to act wisely. Cities are ill-equipped for this. They lack capacity and skills as well as legal empowerment to act.

    Decarb City Pipes 2050 showcases how local authorities can succeed in this challenge. Bilbao, Bratislava, Dublin, Munich, Rotterdam, Vienna and Winterthur, seven cities from frontrunners to beginners join forces to learn from each other and elaborate innovative responses together.
    They explore pathways suitable for their local challenges and build up skills in the use of data, planning tools and instruments, techno-economic as well as process and transition management knowhow. In a participatory process with stakeholders, they develop tangible transition roadmaps, building up trust and commitment for its implementation along the way. In deep peer-to-peer exchanges, cities and utilities share knowledge to benefit from other perspectives, stages of advancement and planning traditions. Together, they will advocate for the needed changes to framework conditions.

    Enriched by a distinguished advisory board, the project aims to empower >220 public officers and improve >50 policies. Ultimately, it strives to motivate and support >80 more cities to start the same roadmap process.

    Partners

    Number of partners: 11
    Site numbers:

    HLAVNE MESTO SLOVENSKEJ REPUBLIKY BRATISLAVA

    UIV URBAN INNOVATION VIENNA GMBH

    ENERGY CITIES/ENERGIE-CITES ASSOCIATION

    AYUNTAMIENTO DE BILBAO

    STADT WIEN

    GEMEENTE ROTTERDAM

    HOGSKOLAN I HALMSTAD

    CITY OF DUBLIN ENERGY MANAGEMENT AGENCY LIMITED

    UNIVERSITEIT UTRECHT

    LANDESHAUPTSTADT MUENCHEN

    STADT WINTERTHUR

    Key Exploitable Results

    • TRL

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  • RENewAble Integration and SuStainAbility iN energy CommunitiEs

    Project dates: 01. May 2019 - 31. Oct 2022

    Objective

    Leading smart grid solution providers and research groups join forces to integrate a range of consumer-focused innovations into existing service platforms. The project will support Industry leaders ABB (analytical and design tools) and ATOS (energy management platform) deliver services with clear market focus, that are widely replicable across Europe. The suite of tools will be demonstrated in real-life pilots in Belgium, Greece, France and the Netherlands. RENAISSANCE aims to demonstrate highly replicable design and management approaches for integrated local energy systems, that achieve high participation of local consumers (15-20%), exceed at local level EU targets for renewable energy sources (37-80%) while decreasing the energy price for community members (5-10% below current market prices). The methodology and each of the pilots will cover key energy vectors (electricity, heat, transport), involve different actors (households, SMEs, institutions), and valorises flexibility services within and between communities, and with DSOs. In total, over 1.000 households and 50 companies will be connected in a system that totals 30752MW capacity. Main innovations include; multi-actor multi-criteria of technical design, geo-locations , interoperable management platform. To demonstrate replicability and open the role to market, the approach will be applied to 10 more locations across the globe - including in India, the US, the UK and Poland.

    Partners

    Number of partners: 14
    Site numbers:

    Research & Innovation

    FUNDACION CIRCE CENTRO DE INVESTIGACION DE RECURSOS Y CONSUMOS ENERGETICOS

    ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS

    DEEP BLUE SRL

    ABB OF ASEA BROWN BOVERI

    DIMOKRITIO PANEPISTIMIO THRAKIS

    EVERIS INGENIERIA SLU

    SUNAMP LIMITED

    SDM-PROJECTS

    BAX INNOVATION CONSULTING SL

    GEMEENTE EEMNES

    ESTACION DE INVIERNO MANZANEDA SA

    NARODOWA AGENCJA POSZANOWANIA ENERGII SA

    IKERLAN S. COOP

    ICT providers

    ATOS SPAIN SA

    Key Exploitable Results

    • TRL

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  • Powerstar Virtual Power Station (PVPS) solution - Powerstar Virtue

    Project dates: 01. Jul 2015 - 31. Jul 2018

    Objective

    EMSc(UK) Ltd is the designer and manufacturer of the Powerstar voltage optimization (VO) system, one of the top recognised energy saving technologies. Powerstar, is the only VO system in the world with a Patent granted on its design (Pat. No.1014460.8.), and is a global leader in the VO market. With more than 6.500 Powerstar installations worldwide, the company is in an ideal position to expand its business in this important new emerging market for Smart Grid Virtual Power Stations.

    Powerstar Virtue aims to pilot-test an integrated smart grid solution based on the Powerstar system design with storage mediums and renewable energy sources. This new solution will open up significant new market opportunities for the company in the European and international markets.

    The company has been working since 2011 in an R&D project with Warwick University to enhance the functionalities of its Powerstar system in order to harness the saved power (resulting from Powerstar VO) and divert it into a storage medium. This R&D project has led to the development of the Powerstar Storage system (Patent pending) which will be launched in February 2015. This is a unique functionality for any VO system, enabling the company to enter the Virtual Power Station market and remain a leader in VO technologies.

    The Powerstar Virtual Power Station (PVPS) solution to be pilot-tested under this project will ensure the long term expansion of the company's market opportunities and will enhance the current EU plans for Smart Grid applications.

    The pilot will evaluate and demonstrate the benefits of the PVPS solution at a commercial site in a live operational environment (ASDA - Longwell Green Superstore). This will ensure that the user (ASDA) and the DSOs (National Grid through E.On) have a clear understanding of the value of the PVPS solution. Such a live demonstration will open up the market opportunity for the full commercialization of the PVPS solution.

    Partners

    Number of partners: 1
    Site numbers:

    EMSc (UK) Ltd

    • Project coordinator
    • EMSc (UK) Ltd
    • United Kingdom
    • Budget: 1, 655, 790

    Key Exploitable Results

    • TRL

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  • Pan-European system with an efficient coordinated use of flexibilities for the integration of a large share of RES

    Project dates: 01. Nov 2017 - 31. Oct 2021

    Objective

    The overall objective is to ensure an efficient and sufficient level of system services are provided to facilitate meeting world leading levels of RES-E while maintaining the level of resilience that consumers and society have come to expect from the European electricity system. This requires defining the right amount of flexibility and system services to support transmission system operators using a threefold approach. Firstly, the technical needs of the pan-European system will be defined for scenarios with more than 50% RES-E in will be identified and translated to services and products to be delivered in an enhanced market design. Secondly, the electricity market design and regulation needs to be augmented to efficiently and effectively procure the appropriate combination of these system services. Thirdly, implicit and explicit barriers to competitive forces being applied need to be removed. This requires an in-depth understanding of all stakeholders’ roles (Generation and flexibility providers, Transmission system operators (TSO) and Distribution System Operators (DSO) and regulators) at all system levels (interconnected system, national transmission and distribution sub-systems and consumers). For doing so, EU-SysFlex joins a multidisciplinary team of 34 partners from 14 European countries, led by the (Transmission System Operators) TSOs representing four different synchronous systems that integrate the pan-European interconnected electricity system: EirGrid & SONI (Ireland), PSE (Poland), AST (Latvia), Elering (Estonia), supported by the necessary (Distribution System Operators) DSOs, technology providers, and research & experienced entities. In addition, a group of three other European TSOs: Fingrid (Finland), LitGrid (Lithuania) and Ceps (Czech Republic), will join the advisory board of the project, in addition to EDSO for Smart Grids and USEF, in order to help the project maximising its impact.

    Partners

    Number of partners: 35
    Site numbers:

    E-REDES - DISTRIBUICAO DE ELETRICIDADE SA

    ELEKTRILEVI OU

    ENERCON GMBH

    VLAAMSE INSTELLING VOOR TECHNOLOGISCH ONDERZOEK N.V.

    INNOGY SE

    • Partner
    • INNOGY SE
    • Germany
    • Budget: 1, 239, 990

    TARTU ULIKOOL

    UNIVERSITY COLLEGE DUBLIN, NATIONAL UNIVERSITY OF IRELAND, DUBLIN

    ZABALA INNOVATION CONSULTING, S.A.

    HELEN OY

    • Partner
    • HELEN OY
    • Finland
    • Budget: 607, 359

    CYBERNETICA AS

    ELECTRICITE DE FRANCE

    FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.

    AKKA HIGH TECH

    INESC TEC - INSTITUTO DE ENGENHARIADE SISTEMAS E COMPUTADORES, TECNOLOGIA E CIENCIA

    ENOCO AS

    • Partner
    • ENOCO AS
    • Norway
    • Budget: 169, 190

    NARODOWE CENTRUM BADAN JADROWYCH

    SONI LIMITED

    FUNDACION ESADE

    AKCIJU SABIEDRIBA AUGSTSPRIEGUMA TIKLS

    POYRY SWEDEN AB

    CNET CENTRE FOR NEW ENERGY TECHNOLOGIES SA

    UNIVERSITAET KASSEL

    RICERCA SUL SISTEMA ENERGETICO - RSE SPA

    GUARDTIME OU

    ELERING AS

    POLSKIE SIECI ELEKTROENERGETYCZNE SPOLKA AKCYJNA

    SIEMENS ENERGY GLOBAL GMBH & CO. KG

    KATHOLIEKE UNIVERSITEIT LEUVEN

    I-EUROPA SRO

    UPSIDE ENERGY LTD

    SIEMENS AKTIENGESELLSCHAFT

    EIRGRID PLC

    • Project coordinator
    • EIRGRID PLC
    • Ireland
    • Budget: 2, 380, 790

    E-DISTRIBUZIONE SPA

    Research & Innovation

    IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE

    TEKNOLOGIAN TUTKIMUSKESKUS VTT OY

    Key Exploitable Results

    • TRL

    • Effective use:
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The EIRIE platform has been developed under the PANTERA project which has received funding from the European Union´s Horizon 2020 Research and Innovation programme under GA No : 824389

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