HESTIA aims to provide a cost-effective solution for the next-generation DR services which will leverage the consumer engagement, energy and non-energy services, while dealing with both energy supply and demand side in a holistic manner. HESTIA intends to engage with residential consumers representing a still largely untapped sector, while enabling them to play an active role in flexibility sharing and grid balancing. HESTIA will enable residential DR services through: (i) exploitation of energy demand flexibility by engaging the consumers in demand-side management activities, and (ii) valorisation of energy efficiency in multi-carrier energy dispatching and optimal operation of building systems. HESTIA will exploit the consumer engagement as part of cooperative DR strategy at the community level, i.e. clusters of individual consumers and prosumers. To motivate the consumers to actively participate, HESTIA will leverage the financial, environmental and social drivers, while cross-fertilizing them to maximize the impact. HESTIA will involve the residents in the designing of the solutions through participatory co-design processes. HESTIA will create community engagement methodology and organisational tools with a high acceptance, that can be replicated and provide the corresponding tailored toolsets for a broader rollout. HESTIA will exploit the aggregated energy resource flexibility at the demand-side, in terms of cumulative energy consumption, distributed energy generation and storage, to better manage the disparity between energy demand, RES availability and grid requirements. User-personalized services will be delivered via a fully service-oriented, flexible ICT platform, underpinned by agent-based concepts, consumer digital twin and non-intrusive data analytics. This way, HESTIA will set the foundation for an open marketplace and a new grid reality, while steering consumer engagement according to the grid requirements and promoting RES and sustainable behaviour.

GEOFIT is an integrated industrially driven action aimed at deployment of cost effective enhanced geothermal systems (EGS) on energy efficient building retrofitting. This entails the development technical development of innovative EGS and its components, namely, non-standard heat exchanger configurations, a novel hybrid heat pump and electrically driven compression heat pump systems and suite of heating and cooling components to be integrated with the novel GSHP concepts, all specially designed to applied in energy efficient retrofitting projects. To make viable the novel EGS in energy efficient building retrofitting, a suite of tools and technologies is developed, including: low invasive risk assessment technologies, site-inspection and worksite building monitoring techniques (SHM), control systems for cost-effective and optimized EGS in operation phase and novel BIM-enabled dedicated tools for management of geothermal based retrofitting works (GEOBIM platform). Furthermore, the project is commited with the application of novel drilling techniques as the improved low invasive vertical drilling and trenchless technologies. GEOFIT brings these technical developments within a new management framework based on Integrated Design and Delivery Solutions for the geothermal based retrofitting process.The IDDS driven process will materialise in the Geo-BIM enabled Retrofitting Management Platform (Geo-BIM tool). By using the 5 demonstration sites as open case studies in 4 countries and climates, featuring different representative technical scenarios/business models, GEOFIT will leverage its key exploitable results, adapted business models and market oriented dissemination for maximizing impact and wide adoption of these novel geothermal technologies and approaches.

HYBRIS' basis is the optimisation of advanced hybrid systems as high-performant, cost-effective and environmentally-friendly solutions in microgrid applications. HYBRIS is an integrated industrially driven action, that will answer to this challenge in 4 key points: - Viability and cost effectiveness: of the use and integration of novel HEES system coupled with innovative microgrid system local RREE generation and loads, (in particular residential, tertiary buildings and EV charges stations). Achieved by the integration and validation of a suite of technologies, tools and methods enabling their easy application and massive deployment. - Technical: pursuing the technical optimization of the HEES system in 3 use case applications covering respectively 1) Energy services in island grids 2) Energy services in private grids 3) EV charging stations in e-mobility, - Optimization and integraton. - Validation: by using the 3 demonstration sites as open case studies representing the 3 differrent use case applications and situations found throughout Europe, to leverage knowledge, key exploitable results, adapted business models and market-oriented dissemination for maximizing impact and wide adoption of these novel heating and cooling technologies and approach. HYBRIS features a fully systematic, collaborative and integrated approach to the development and deployment of innovative battery based hybrid storage sytemm, coupling diverse and complementary breakthrough TRL 5-6 technology assets brought by leading industrials, universities and RTOs, plus ICT tools for viable and cost-effective optimization and further market introduction. All will reach TRL6 by the demonstration and validation of its concepts in 3 use cases applications in 3 pilot sites in 3 four countries

Building on results of recently (or soon to be) concluded EU projects, FEDECOM aims to enable integrated local energy systems through sector coupling and cross-energy vector integration, increasing RES penetration via optimal utilisation of energy dispatch, storage and conversion assets. FEDECOM pursues the idea of electricity becoming the leading energy carrier, with power grids as the backbone for the decarbonisation of all energy sectors and aggregators as the cornerstone enabler of the potential exploitation. FEDECOM adopts and maximizes the potential synergies of two complementary deployment strategies: (i) direct electrification (e.g. via demand electrification), and (ii) indirect electrification (with power-to-X technology). FEDECOM will deliver a scalable and adaptable cloud-based platform composed of analytical, modelling and optimization services for planning, supervision and control of integrated local energy systems (power, gas, heating and cooling, industry, electric and hydrogen mobility). Optimized operations of the integrated systems will be demonstrated as part of hybrid RES/storage infrastructures, while enabling a holistic cooperative demand response (DR) strategy across federation of energy communities. With a concept of federated energy communities, FEDECOM unlocks the flexibility potential, enable energy exchange, and provide coordinated actions across near and remote sites, while maximizing the positive impact on grid transmission level. FEDECOM’s integrated package will be verified on three real large-scale pilots, each composed of multiple (federated) demo sites (communities): Spanish Virtual Green H2 Federation, Swiss Residential Hydropower Federation and BENElux cross-country e-Mobility Federation. After FEDECOM, local energy communities and service providers will be fully trained and upskilled via dissemination and engagement activities to take full ownership of FEDECOM solution and its business ecosystem.

CREATORS enables local initiators to create and operate advanced Community Energy Systems (CES) by supporting technical, financial and social processes. With the sector moving beyond inventor-lead pilots, local CES initiators lack the capacity for high-quality simulation, business modelling and automated operations that are required in communities with a range of vectors, 1000s of mixed members, and balancing/ trading that requires controls in milliseconds. Leading engineering firms Cordeel and COMSA work with specialists in simulation and energy trading (i.LECO), emulation for digital twins (Typhoon HIL), and financing (EnergyPro) to develop services that enable local professionals to apply state of the art energy system technologies. These applications and integrated packages will mature from TRL5-6 to TRL7-8 and eventually be offered as ´CES-as-a-Service´. The services will deliver 60% preparation and operational costs reductions, ensuring 99,95% uptime, 20-35% CAPEX reduction, and up to 40% additional incomes. The results are 5-10% local energy price reduction (below €0,18kWh) in systems covering all vectors, with 10³ - 10⁴ participants. The approach creates 2 fte jobs in each CES, whilst for partners remote services could reach 10% the system turnover, in what is a high growth market. In standardizing simulation and assessment tools in close collaboration with local stakeholders (30 LoS), the BRIDGE initiative and lenders (industry-lead Investor Confidence Protocols), CREATORS significantly advances commercial readiness (CRI3). The applications will be developed in 4 sites (Belgium, Spain, Slovenia, Estonia), and replicated in another 6 (the Netherlands, Bulgaria, France, Spain). The pilots mix vectors, participants and business models, covering in total >2000 households, >500SMEs and >5 industrial sites. Ten more prospective CES will be supported in feasibility studies through a competitive process, which also aims to prepare for commercial market entry.