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Smart grid storage and system integration technologies enabling and increase in renewables

Integrated Smart GRID Cross-Functional Solutions for Optimized Synergetic Energy Distribution, Utilization Storage Technologies

InteGRIDY integrates cutting-edge technologies, solutions and mechanims in a scalable Cross-Functional framework of replicable solutions to connect existing energy networks with diverse stakeholders.

Pilot goals

  • Demand response

    Including energy efficiency, demand shifting and shaving. Energy Management with valuable active end-user engagement.

  • Smartening the Distribution Grid (DG)

    Renewable Energy Sources (RES) and Distributed Energy Resources (DERs) integration within Virtual Power Plant (VPP)
    aggregators.

  • Energy Storage

    Direct electricity storage in batteries or conversion to other forms of energy (chemical, hydrogen, etc.)

  • Electric Vehicle Integration

    Smart, bidirectional electric vehicle (EV) energy exchange, smart charging and fleet management.

Pilots

Isle of Wight UK

Smart Grid feat fast Charging Electric Vehicles Facilities, Demand Side Response & Energy Storage

San Severino Marche Italy

Advanced DG Monitoring Power Flows Forecasting & Topology Optimization

Ploiesti Romania

Intelligent Energy Demand & Supply Matching feat Innovative Simulation & Command-Control for Energy Grids

Xanthi Greece

Optimum Distributed Control of Renewable Energy Sources-enabled Islanded Grids Local Storage

Thessaloniki Greece

Flexible Demand Response at Residential & Tertiary Building with Local Storage

Nicosia Cyprus

Coordinated Demand Response and Demand Side Management at Academic Campus and Households with Renewable Energy Sources & Combined Heat and Power

Terni Italy

Combining Smarter Descentralised MV/LV Automation with Local Coordinated DER-DSO Operation for Improving Grid Optimization

Barcelona Spain

Smart Grid Integration, Self-Consumption & Enlarged Renewable Energy Sources (RES) Penetration Factor

Lisboa Portugal

Demand Response in Municipal Buildings integrating photovoltaic, Electric Vehicles & thermal Storage

Saint-Jean de Maurienne France

Novel Demand Response & Virtual Energy Storage Schemes

This project has received funding from the European Union’s H2020 research and innovation programme under the grant agreement No 731268