EUniversal aims at implementing the Universal Market Enabling Interface (UMEI) concept by bringing forward a universal, open, adaptable and modular approach to interlink active system management with electricity markets and foster the provision of flexibility services, also acknowledging the activation needs and the coordination requirements with other commercial parties and TSOs.

DATA CELLAR aims to create a public energy dataspace that will support the creation, development and management of LECs in EU. Such dataspace will be easy to populate (also via an innovative rewarded private metering approach) and easy to interact with, also guaranteeing a smooth integration with other EU energy dataspaces and providing to LEC stakeholders services and tools for developing their activities. DATA CELLAR will implement a collaborative platform.

TIGON aims to achieve a smooth deployment and integration of intelligent DC-based grid architectures within the current energy system while providing ancillary services to the main network. To do so, TIGON proposes a four-level approach aiming at improving reliability, resilience, performance, and cost efficiency of hybrid grids through the development of an innovative portfolio of power electronic solutions and software systems and tools focused on the efficient monitoring, control, and management of DC grids. These solutions will be demonstrated in two main demo-sites located in France and Spain.

The project aims to design, develop and demonstrate a set of tools to integrate the emerging decentralized ecosystem of RES and flexibility systems into the existing European energy system, efficiently and cost-effectively, to create a more stable, secure, and sustainable smart grid, with special attention to extreme weather conditions.

VPP4Islands aims to facilitate the integration of renewable systems, accelerate the transition towards smart and green energy and help Islands to exploit energy efficiency potential and innovative storage approaches, foster the active participation of citizens and become self-sufficient in energy, while reducing costs, GHG emissions and reliance on heavy fuel oil to generate power, and creating new intelligent business, growth and local skilled jobs.

TwinERGY will introduce a first-of-a-kind Digital Twin framework that will incorporate the required intelligence for optimizing demand response at the local level without compromising the well-being of consumers and their daily schedules and operations. TwinERGY enables positive changes on how citizens and communities consume energy by empowering them to track their energy use and to proactively participate in the market.

The project aims to develop next-generation energy service applications for demand response, home automation, and convenience. It focuses on creating innovative demand response mechanisms, improving consumption forecasting through advanced models, leveraging digital twins for flexibility, and designing profit-sharing business models. It also seeks to support a regulatory framework to accelerate pattern-based demand response adoption.

SDN-microSENSE intends to provide a set of secure, privacy-enabled and resilient to cyberattacks tools, thus ensuring the normal operation of EPES as well as the integrity and the confidentiality of communications. DN-microSENSE aims at providing and demonstrating a secure, resilient to cyber-attacks, privacy-enabled, and protected against data breaches solution for decentralised Electrical Power and Energy Systems (EPES).

The ROBINSON project focuses on decarbonising industrialised islands by integrating renewable energy sources, storage technologies, and innovative energy management systems. Key objectives include developing a flexible Energy Management System (EMS), optimising renewable energy integration, biomass and wastewater valorisation, and validating innovative technologies. Measurable outcomes include reduced CO2 emissions, improved energy reliability, and new business opportunities. Research areas encompass energy system optimisation, renewable integration, and hydrogen technology advancement, aligning with European sustainability and decarbonisation goals.

The project focuses on enhancing energy autonomy and efficiency in urban areas through the establishment of energy islands empowered by citizen communities. Key objectives include maximizing renewable energy integration, fostering community engagement, and enhancing economic viability. Measurable outcomes include increased energy autonomy levels, community participation rates, economic attractiveness of renewable systems, and replicability potential across Europe.