Today, there are still several R&D barriers, and user-acceptance-related challenges that hinder the smooth integration and proliferation of multiple Renewable Energy Technologies (RETs) in buildings. In response to that, RE-COGNITION proposes a holistic, end-to-end RETs Integration Framework towards energy positive buildings with a focus on small and medium-sized buildings in Europe. Through the envisaged Automated Cognitive Energy Management Engine (ACEME), RE will be utilized more efficiently paired with appropriate storage technologies and innovative energy systems to meet the electricity and heating/cooling demand of the buildings. The framework is designed to enable the integration of multiple, heterogeneous, energy generating systems covering the spectrum of available building-scale RES (solar (PV, thermal/ cooling), wind, bio-energy (renewable biofuel through micro-CHP) and geothermal) and demonstrating future-proof extensibility. To this end, the project entails R&D at the level of single technologies and their interconnection with novel energy systems (like heat-pumps harnessing geothermal energy, absorption chillers) leveraging current IoT and smart-grid standardization outcomes. Along with measurable improvements on each technology’s efficiency, performance, desired characteristics and cost-effectiveness, RE-COGNITION ensures optimal integration of RETs in buildings, as well as (inter)operation and matching between building RE supply and energy demand. Its stakeholder-centred approach aligns both the process and its outcomes with the needs and expectations of (end-)users by providing tools that facilitate large-scale deployment of building-scale RETs. For 36 months 15 partners from 7 EU countries will provide technology know-how, lab facilities & 5 validation sites and will work towards meeting EU’s expectations for reduced dependence on fossil fuels and cost-effectiveness compared to conventional energy generation and management solutions in buildings.

The GOFLEX project will innovate, integrate, further develop and demonstrate a group of electricity smart-grid technologies, enabling the cost-effective use of demand response in distribution grids, increasing the grids’ available adaptation capacity and safely supporting an increasing share of renewable electricity generation. The GOFLEX smart grid solution will deliver flexibility that is both general (across different loads and devices) and operational (solving specific local grid problems). GOFLEX enables active use of distributed sources of load flexibility to provide services for grid operators, balance electricity demand and supply, and optimize energy consumption and production at the local level of electricity trading and distribution systems. Building on top of existing, validated technologies for capturing and exploiting distributed energy consumption and production flexibility, GOFLEX enables flexibility in automatic trading of general, localized, device-specific energy as well as flexibility in trading aggregated prosumer energy. Generalized demand-response services are based on transparent aggregation of distributed, heterogeneous resources to offer virtual-power-plant and virtual-storage capabilities. The sources of load flexibility include thermal (heating/cooling) and electric storage (electric vehicles charging/discharging). A backbone data-services platform offers localised estimation and short-term predictions of market and energy demand/generation, and flexibility in order to support effective data-driven decisions for the various stakeholders. Smart-grid technologies, such as increased observability and congestion management, contribute to the platform. Over 36 months, GOFLEX will demonstrate the benefits of the integrated GOFLEX solution in three use-cases, covering a diverse range of structural and operational distribution grid conditions in three European countries.

The INteractive CHarging (INCH) project will introduce the next-generation charging station for electric vehicles (EVs), named Etrel Smartcharger. It will enable charging of an increasing number of EVs in a smart and sustainable manner, which is the only way to optimise energy use in transport and reduce related greenhouse gas emissions. In the long term, it will not be possible to use EVs without using solutions such as the Smartcharger. The Smartcharger is a new version of Etrel's current product generation, designed as a low-voltage AC charging station for use at homes, offices, and car parks. It will bring down the cost of smart charging infrastructure deployment where it matters the most (more than 90 % of charging takes place at home or at work). At the same time, it will bring the charging network to a new level, allowing each and every connected car to adjust its consumption to the needs of the energy grid. Market adoption of the Smartcharger will be driven mostly by EV drivers who require an interactive solution that can automatically charge their car in the desired time without overloading the circuit. The Smartcharger will allow each EV user to save 140 EUR per year in charging costs and will return the investment in 3-4 years, roughly a third of its lifetime. Users will be able to share control over their charging with power companies in exchange for financial compensation. This will give the power companies an option to control EV charging load, in order to reduce it in time of peak demand or use the batteries as a reservoir for electricity from renewable sources at times of high production. With an additional investment of 1.322.000 EUR, an estimated 67M EUR of profits and 65 new jobs within the company are expected over the course of 10 years after the end of the project. The INCH project will also present an enabling technology for the integration of EV charging into European smart grids and for the provision of new services in electromobility.

GIFT is an innovative project that aims to decarbonise the energy mix of European islands. European islands have to abide by the law of their countries that push toward a greener energy mix to comply with the European and international agreements. GIFT is willing to develop innovative systems to allow islands to integrate vast amount of renewables. In order to reach that goal, the coordinator INEA has built a well-balanced consortium gathering a total of 17 partners of 7 countries, including 1 industrial partner, 9 SMEs, two municipalities, 3 research centres and 2 universities. Through the development of multiple innovative solutions, such as a virtual power system, energy management systems for harbours, factories, homes, better prediction of supply and demand and visualisation of those date through a GIS platform, and innovative storage systems allowing synergy between electrical, heating and transportation networks, GIFT will increase the penetration rate of renewable energy sources into the islands’ grid, reducing their needs for diesel generation and thus decreasing the greenhouse gases emissions directly related to it. During 4 years, the partners will develop and demonstrate the solutions in two lighthouse islands, in Hinnøya, Norway’s largest island and the small island of Procida in Italy and study the replicability of the solution in a Greek and Italian islands at the minimum, respectively Evia and Favignana. The complementarity of these islands in terms of climate, energy mix, population and activities is meant to have solutions adaptable to different situations. To even increase this, the GIFT project has started to build a replication board with associations that already gather 1640 European islands that will be able to study replication for their territories. The consortium aims to provide sustainable solutions with a strong market uptake and plans to widely disseminate their solutions and replicate it on all relevant islands in the EU and beyond.