Hypergryd

European Commission - Horizon 2020

Accademia europea Di Bolzano, Italien

AIT - Austrian Institute of Technology GmbH, Österreich

Comet Gesinco SL, Spanien

Consiglio Nazionale Delle Ricerche, Italien

encoord GmbH, Deutschland

European Innovation Marketplatz ASBL, Belgien

Grid Singularity GmbH, Deutschland

Gussing Energy technologies gmbH, Österreich

IDP Igenieria y arquitectura iberia sl, Spanien

Instytut Maszyn Przeplywowych im roberta Szewalskiego Polkiej Akademii Nauk, Polen

Kungliga Tekniska Hoegskolan, Schweden

Ochsner Wärmepumpen GmbH, Österrech

Parco scientifico technologico per lambiente environment park torino Spa, Italien

Ranotor AB, Schweden

RINA Consulting Spa, Italien

R2M Solution SRL, Italien

Sonnenplatz Großschönau GmbH, Österreich

Sorption Technologies GmbH, Deutschland

4th and 5th generations of DHC still face several fundamental technical and social challenges.

The integration of thermal and electric grids through a set of renewable-based, digitally-operated and user-centred solutions are key to accelerate the sustainable transition towards future 4th and 5th generations of District Heating and Cooling (DHC) and contribute to EU climate goals by 2050.

Hypergryd is a 3,5-years research and innovation action procet funded by the EU's Horzion 2020 Programme aiming at six main objectives:

1. Development of RES-based enabling technologies for DHC and integration with electrical grids for cost- and energy-efficient decentralized production, improved demand RES share at building and district levels and increased share of variable RES in Smart Hybrid Grids (SHG).
2. Development of innovative tools for RES-enabled District Heating and Cooling (DHC) planning and optimization for the effective improvement of planning solutions and increased RES share in 4th and 5th generations DHC.
3. Development of an integrated ICT platform for coupled networks and interfacing with existing grids, offering seamless transition between different specialized platforms to monitor, analyze and operate the whole system from different aspects and different lifecycle stages.
4. Validation of HYPERGRYD’s technical solutions, ICT platform and tools in 4 representative Live-In-Labs (LiL) able to simulate 3rd to 5th generation DHC networks in three different climates (cooling dominated, mid H/C and heating dominated).
5. Engagement of all types of DHC and grid users to ensure a long-lasting appeal of the HYPERGRYD solutions and platforms.
6. Creation of an exploitation and capacity building plan for wide scalability and replication of HYPERGRYD through user engagement.

https://hypergryd.eu/