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)

  • 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.


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