Digitalization

Digitalization

  • Demonstration of INTElligent grid technologies for renewables INTEgration and INTEractive consumer participation enabling INTEroperable market solutions and INTErconnected stakeholders

    Project dates:

    Objective

    InteGrid’s vision is to bridge the gap between citizens and technology/solution providers such as utilities, aggregators, manufacturers and all other agents providing energy services.

    Impact

    • Replicability: Promote a EU wide market for energy services through standards and interoperable solutions.
    • Socio-economics: Giving the citizens the right set of tools to play an active role on the energy system (evolution of smart homes and energy market mechanisms involving customers).
    • Environment: Increase capability for Renewables Integration.
    • Market Transformation: Support EU based companies’ products and services to the market in 2-5 years and developing new business models around the functionalities and services created: Home Energy Management Systems; Virtual Power Plant (VPP); new grid management solutions; LV control function; Market Hub platform data management, etc.
    • Policy: Contribute to policy on new energy market design and regulatory orientations (i.e. VPPs and demand side management).

    Partners

    Number of partners: 1
    Site numbers:

    DSOs

    Demonstration of INTElligent grid technologies for renewables INTEgration and INTEractive consumer participation enabling INTEro

    Key Exploitable Results

    • TRL

    • Effective use:
    • Barriers:
    • Additional next steps:
    • Investment needed:
  • ICT-based ENERgy Grid Implementation – Smart and Efficient

    Project dates:

    Objective

    ENERGISE was launched to analyse smart grid communication infrastructure together with the different parties on DSO, telecommunications and governmental side. The main focus is on identifying the different decision-making factors which determine if a dedicated or shared communication infrastructure should be deployed. The project sets out to facilitate the efficient deployment of smart grid solutions by offering to all relevant stakeholders a toolkit that supports their decision-making process as regards the use of telecommunication infrastructure for existing or projected business cases.

    Impact

    N/A

    Partners

    Number of partners: 1
    Site numbers:

    Research & Innovation

    ICT-based ENERgy Grid Implementation – Smart and Efficient

    Key Exploitable Results

    • TRL

    • Effective use:
    • Barriers:
    • Additional next steps:
    • Investment needed:
  • Interactions between automated energy systems and Flexibilities brought by energy market players

    Project dates:

    Objective

    InterFlex investigates during 36 months the INTERactions between FLEXibilities provided by energy market players and the distribution grid. This project focuses particularly on energy storage, smart charging of electric vehicles, demand response, islanding, grid automation and integration of different energy carriers (gas, heat, electricity).

    Impact

    • Environment: Through the optimisation of the local energy system, the project generates benefits in terms of increased energy efficiency (load shifts to off peak hours; optimized self-consumption in case of prosumers, increased awareness leading to active DSM and reduced electricity consumption), power generation optimization (peak shaving, avoiding electricity generation from carbonized peak load generation units) and increased share of renewables (optimized integration of intermittent renewable energy sources), resulting in the overall reduction of GHG emissions.
    • Socio-economic: The project stimulates the development of new services for end-customers allowing for instance the development of demand response service packages for small and large consumers as well as prosumers. The provision of community storage solutions or the optimal use of multiple source flexibilities should help to decrease the electricity bill without any noticeable impact on the supply quality.
    • Policy: The Use cases of the project will help to:
    - formulate recommendations for micro grid operation (control schemes and observability),
    - elaborate an appropriate regulatory framework for self- consumption and storage solutions (community or individual residential storage)
    - provide guidelines on the participation of distributed resources in DSO operations (modifications of grid codes).

    Partners

    Number of partners: 1
    Site numbers:

    DSOs

    Interactions between automated energy systems and Flexibilities brought by energy market players

    Key Exploitable Results

    Enhanced DSO and aggregators platforms (and related interfaces) for the provision of innovative energy services for all the players in the energy market: enhanced observability, local energy control, flexibility services

    • SolutionTo provide innovative energy services for all the players in the energy market: to use simultaneously flexibilities from multiple sources, to trade them locally on a “Local flexibility market”, and to control them remotely (for instance through the German demo “Smart Grid Hub”).
    • TRL
      • TRL 6 -

        technology demonstrated in relevant environment (industrially relevant environment in the case of key enabling technologies)

    • Final BenefitDSOs, agregators
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Overcome the common market barriers. Enhanced observability, local energy control, flexibility services.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product
    • Investment needed:
      • Uncertain

    Multi-services business models for battery storage and recommendations and market organisation on running a planned and automated islanded mode

    • SolutionTo test residential and larger, shared battery systems to relieve network congestion, and increase the renewable hosting capacity of the grid. Recommendations for the grid codes on the observability and management of microgrids: required technologies and sensors, communication infrastructure and role description, contractual relationships for market organisation.
    • TRL
      • TRL 6 -

        technology demonstrated in relevant environment (industrially relevant environment in the case of key enabling technologies)

    • Final BenefitDSOs, Aggregators, EV charging stations operators, Battery storage owners, Local Energy Supply Companies
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Reinforce system security, improve the distribution grid observability, solve congestion problems, while taking into account the need of EV users. Improvement of the security of supply for customers; enabling the community to support the use of the renewable energy via automated control of their residential assets.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Between 1 and 10 MEur

    Recommendations for grid automation or control enabling the use of flexibilities to manage potential or existing DER-generated grid constraints (grid code evolutions)

    • SolutionTo increase DER hosting capacity thanks to using volt-var control V/Q or to using the Q(U) and P(U) characteristics of smart inverters.
    • TRL
      • TRL 6 -

        technology demonstrated in relevant environment (industrially relevant environment in the case of key enabling technologies)

    • Final BenefitDSOs, Battery storage operators
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Increase DER hosting capacity in LV networks without the need of expenses for new interconnections and reconstruction.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Uncertain
  • Technology Innovation for the Local Scale, Optimum Integration of Battery Energy Storage

    Project dates:

    Objective

    TILOS’ main goal is to demonstrate the potential of local / small-scale battery storage to serve a multipurpose role within a smart island microgrid that features high shares of renewable energy and trades electricity with the main electricity network.

    Impact

    • Replicability: The system carries modular and scalable characteristics; thus it can satisfy island systems of different size. The Aegean Sea region alone suggests a market of 1GW of oil-based power stations that could be replaced on the basis of TILOS solution.
    • Socio-economics: The project measures public engagement and tries to value the different system aspects, focusing on the battery asset. In the same vein, TILOS investigates the development of novel business models based on public-private partnerships and/or community-scale energy cooperatives (community level prosumers).
    • Environment: TILOS system will allow maximum RES penetration (satisfaction of local demand at 70%). This implies reduction of ~1.7kt of CO2 emissions. Moreover, the project combines RES components with fully-recyclable batteries.
    • Market Transformation: TILOS is already transforming the Greek market, reviving the argument for alternative energy supply models in island regions, with the use of battery storage. However the project aspires to further transform the European market by introducing novel energy trade strategies for community-based micro grids that rely on RES and battery storage and that interface electricity grids with market features.
    • Policy: Contribution to EU-policies (EU Cohesion Policy, the "20-20-20" targets, etc.), and to Greek energy policy and legislation. Furthermore, by building a collaborative relationship with the Ministry of Energy, TILOS is considered the blueprint for similar schemes in other Greek islands, influencing also the New Development Law of Greece, (4399/2016) which provides capital subsidies for local scale energy storage in hybrid power stations of less than 5MW. In addition, TILOS currently chairs the "Regulation" and "Customer Engagement" WGs of the BRIDGE Initiative.

    Partners

    Number of partners: 1
    Site numbers:

    Research & Innovation

    Technology Innovation for the Local Scale, Optimum Integration of Battery Energy Storage

    Key Exploitable Results

    Integrated NaNiCl2 Battery & Grid-forming Battery Inverter

    • SolutionMW-scale Multi-functional BESS supporting island operation
    • TRL
      • TRL 7 -

        system prototype demonstration in operational environment

    • Final BenefitOperator scheme of the Hybrid Power Station in Tilos island
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      High shares of renewable energy

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • No further investment needed

    Prototype Smart Meter & DSM Panel

    • SolutionSmart Meter & DSM Panel for the monitoring and remote control of residential and other type of loads
    • TRL
      • TRL 7 -

        system prototype demonstration in operational environment

    • Final BenefitEnd-users of Tilos island and leader beneficiary
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Monitoring and remote control of loads

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Between 1 and 10 MEur

    Forecasting Platform

    • SolutionRobust forecasting platform able to interface EMS
    • TRL
      • TRL 7 -

        system prototype demonstration in operational environment

    • Final BenefitMembers of the beneficiaries that developed the platform
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      To foster increased RES contribution

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Between 1 and 10 MEur
  • Renewable Generation with Intelligent Storage and Consumption to Operate Distribution Networks with Auto-consumption Systems

    Project dates:

    Objective

    Intelligent power controls and purpose-built Energy Management System combined with a battery storage system, a wind park and a photovoltaic power plant. The system allows to power the island by wind and solar energy with the existing diesel needed only for back-up power during prolonged periods of unfavorable weather.

    Impact

    N.A.

    Partners

    Number of partners: 1
    Site numbers:

    Storage providers

    Renewable Generation with Intelligent Storage and Consumption to Operate Distribution Networks with Auto-consumption Systems

    Key Exploitable Results

    Integrate different power units without disturbing the stability of the grid.

    • SolutionUse endogenous resources such as wind and sun
    • TRL
      • TRL 9 -

        actual system proven in operational environment (competitive manufacturing in the case of key enabling technologies; or in space)

    • Final BenefitCustomers
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      About 2/3 of annual consumption will be provided
      through renewables energy.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Between 1 and 10 MEur
  • SECUREGRID

    Project dates:

    Objective

    Development of new knowledge in the field of cybersecurity applied to Intelligent Electronic Devices (IEDs) and substations, definition of the degree of security that an IED can achieve for each of the security requirements.

    Impact

    N/A

    Partners

    Number of partners: 1
    Site numbers:

    ICT providers

    SECUREGRID

    • Project coordinator
    • ZIV
    • Spain

    Key Exploitable Results

    SecureGrid Security Model

    • SolutionProvision of clear information about what security capabilities in electronic devices could be required by utilities.
    • TRL
      • TRL 2 -

        technology concept formulated

    • Final BenefitEquipment manufacturers
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Check cyberattacks and get data.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Less than 100 kEur

    Electronic Devices with a higher degree of cybersecurity

    • SolutionReduction of the risk that the electronic equipment (IED) and, by extension, the electrical installations in which they are deployed suffer a cyberattack.
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitDSOs
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Increase of the security level of electrical networks, and reduction of cyberattack risk

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur
  • INNOVACIÓN EN LA AUTOMATIZACIÓN DE LA RED DE DISTRIBUCIÓN DE NEUTRO AISLADO.

    Project dates:

    Objective

    Development of new solutions and innovative equipment that enable a higher degree of automation in the medium and low voltage distribution networks in order to improve grid operation.

    Impact

    N/A

    Partners

    Number of partners: 1
    Site numbers:

    DSOs

    INNOVACIÓN EN LA AUTOMATIZACIÓN DE LA RED DE DISTRIBUCIÓN DE NEUTRO AISLADO.

    Key Exploitable Results

    Applications to avoid undesired “isle” generation

    • SolutionDevelopment and implementation of several algorithms, not only to protect the grid from the accidental ani-isle event but also to research about grid response by implementing anti-isle events intentionally.
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitDSOs
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Improvement of the efficiency of automatisms to grid re-connection and reduces risks for the power generator equipment, increasing the rate of success of remote control operations.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur

    Solutions to avoid or reduce ferro-resonance appearance in the medium voltage distribution grids

    • SolutionDevelopment of electronic equipment based on an electronic power converter that behaves like a resistance emulator with ability to detect the occurrence of ferroresonance phenomena in inductive voltage measurement transformers.
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitDSOs
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Mitigattion and prevention of overvoltages and unwanted behavior in the protections, thus improving network operation.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur

    Voltage / intensity sensors

    • SolutionSensors integrated in the
      switchgear that allow the
      measurement of voltage
      in bars and cables in the
      same transformation
      center
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitDSO
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Improvement of transformation centers operations.
      Possibility to develop complex synchronization check algorithms on both sides of the switch.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur

    Early detection of faults for predictive / preventive maintenance

    • SolutionCapacitive sensors integrated in the medium voltage electrical switchgear to capture the signals of the partial discharges and the reference of the voltage wave.
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitDSOs
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Ability to perform an early analysis of the quality of the installation without need of complex installations and power supply cuts. Allowing a continuous monitoring over time of the entire system.

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur
  • Poste Intelligent

    Project dates:

    Objective

    Development of a 100% digital and optical solution that will enhance the energy and operational performance of the grid as well as its reliability

    Impact

    N/A

    Partners

    Number of partners: 1
    Site numbers:

    TSOs

    Poste Intelligent

    • Project coordinator
    • RTE
    • France

    Key Exploitable Results

    Digitized substations

    • SolutionA substation which was a power hub will be a data hub. Digitization of a TSO
    • TRL
      • TRL 8 -

        system complete and qualified

    • Final BenefitUsers, Customers
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Enhance the energy and operational performance of the grid and its reliability

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
      • Scaling up the product, Economical assessment
    • Investment needed:
      • Between 100 kEUR and 1 Million Eur
  • Integration of Loads and Electric Storage Systems into Advanced Flexibility Schemes for LV Networks

    Project dates:

    Objective

    Leafs evaluates the effects of increased costumer and energy market driven utilization of energy storage systems and load flexibility on power distribution grids. Technologies and operation strategies are developed enabling optimal use of distribution grid infrastructure by activating flexibilities using direct or indirect control also by the local grid operator or even incentives.

    Impact

    N.A.

    Partners

    Number of partners: 1
    Site numbers:

    Research & Innovation

    Integration of Loads and Electric Storage Systems into Advanced Flexibility Schemes for LV Networks

    Key Exploitable Results

    Active Inteligent Control of Flexibilities

    • SolutionMulti-Use (Grid, Customer and Market) intelligent Control of a Central Storage System
    • TRL
      • TRL 5 -

        technology validated in relevant environment (industrially relevant environment in the case of key enabling technologies)

    • Final BenefitCustomers and Solution Providers
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      More PV Integration, Local Consumption of Renewables, Less CO2 emissions. Flexible integration of distributed energy resources at minimum network reinforcement costs as well as higher self-consumption level for customers operating their own DG-unit

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Less than 100 kEur
  • Adiabatic Compressed-Air Energy Storage for Electricity Supply

    Project dates:

    Objective

    Development of Compressed Air Energy Storage (ACEAS) for electricity storage

    Impact

    N/A

    Partners

    Number of partners: 1
    Site numbers:

    Energy Suppliers

    Adiabatic Compressed-Air Energy Storage for Electricity Supply

    Key Exploitable Results

    Adiabatic Compressed Air Energy Storage

    • SolutionImproved grid integration of renewable energy
    • TRL
      • TRL 4 -

        technology validated in lab

    • Final BenefitUtilities, grid operators, power plant operators
    • Nature Database, Hardware, Methodology, Other, Policy, Regulation and Market, Software
    • Benefit of the KER

      Transition towards CO2-neutral energy generation, grid stability, avoided curtailment of RES

    • Effective use:
      • Collective use, Commercial use, Internal use, Open source, Other
    • Barriers:
      • Further investment, Market conditions, No specific barrier, Other, Regulation, Scaling-up
    • Additional next steps:
      • Cooperation with other players, Create new company to commercialize result, Demonstration, Dissemination, External certification, Further testing, Internal deployment, Other, Regulatory changes around electricity market, Regulatory changes around sharing ecosystem, Scaling-up of product, Technical and business development of product
    • Investment needed:
      • Above 10 MEur