HYPERGRID
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HYBRID COUPLED NETWORKS FOR THERMAL-ELECTRIC INTEGRAD SMART ENERGY DISTRICTS
HYBRYDICAL NETWORKS FIELD-ELECTROEGETIC FOR INTELLIGENT ENERGY SHARES
Program: Horizon 2020, Call: H2020-LC-GD-2020 (the European Green Deal), Topic: LC-GD-2-1-2020, Type of action: RIA
Coordinator: Armengol & Ros Consulting Engineers Ass, Spain
Consortium: 19 Partners from 7 European countries
Project objectives:
HYPERGRYD aims to develop a concept of a structural and technological solution, and to design a set of replicable and scalable, cost-effective technical solutions (design and technology) that will enable the integration of RES into networks (in particular thermal ones), including the development of innovative key structural components of machinery and equipment, in parallel with ICT services, in order to optimise the operation of systems of increased complexity from building to community level. The HYPERGRYD project's construction and technology solutions will accelerate sustainable transformation, planning and upgrading of heating and cooling networks (DHCs) towards the fourth and fifth generation. The project also aims to develop a system for the management and optimisation of energy flows (including heat) in a real-time integrated energy system team. The best of the construction and technological solutions developed during the implementation of the project will be executed and implemented in the form of four prototype demonstrators in the form of Live-in-the-Labs in three representative climate zones: Italy, Poland and Austria.
IMP PAN will be mainly involved in conceptual and design work, development of manufacturing technology, development of diagnostic methods, conducting endurance, thermodynamic and fluid mechanics analyses. Research work in the field of technology demonstrators will be carried out at the IMP PAN-KEZO Research Centre, with particular emphasis on equipment such as: innovative heat pumps, PCM storage facilities (Phase Change Material) and systems of high performance heat exchangers. Within the project developed and tested innovative pumpsa heat integrated with PCM magazine. Ultimately, this heat pump is expected to be more efficient by about 20% than the standard solutions currently available on the market. This device will be integrated into the existing system powered from the ground heat pump with CO2. Dynamic models of devices (supercritical heat pump with CO) will be developed2, adsorption system, PCM storage). The cooperation of the devices will be modelled by the development of the project original models in Matlab and Dymola. The Hypergrid project will also allow development and testing of innovative CHP system based on steam engine cooperating with a multi-fuel boiler. The experimental work will allow Determination of engine performance in variable loads and critical load parameters. The test will use a system to monitor the state of the structure, the impact of thermal stresses will be examined. In addition, the project will create a design long-term sorpatory storage heat. In the work on the warehouse will be used Numerical calculation techniques for fluid mechanics and heat exchange. The scope of the work presented above, which includes, to a large extent, the construction and operation of machinery, heat exchange, diagnostics, modeling and durability of materials, positioning these works in the discipline of mechanical engineering.
The subjects covered by the project include:
- the mechanics of the construction and basics of the machinery – due to the need to design, construct and carry out tests of the heat pump integrated with the PCM warehouse; the design, design and testing of experimental sorpation system; the performance of strength calculations, design, construction and experimental testing of an innovative steam engine-based cogeneration system;
- fluid mechanics – due to the need for flow calculations in heat pump systems; adsorber and desorber calculations;
- thermodynamics and heat exchange – due to the need to perform CFD calculations in supercritical heat pump components with CO2; calculation of the heat exchange area in PCM storage facilities and sorption system; determination of heat exchange factors during phase transformation in PCM storage facilities;
- metrology – due to the design of measurement and acquisition systems and statistical data processing.
The consortium of the HYPERGRYD project consists of the following Partners:
1. Armengol & Ros Consulting Engineers Ass., ES
2. Comet Gesinco SL, ES
3. Kungliga Tekniska Hoegskolan, SE
4. Consiglio Nazionale Delle Ricerche, IT
5. Sorption Technologies GmbH, DE
6. AIT Austrian Institute of Technology GMBH, AT
7. Ranitor AB, SE
8. Gussing Energy technologies gmbh, AT
9. IDP INGENIERIA Y ARQUITECTURE IBERIA SL, ES
10. encoord GmbH, DE
11. Grid Singularity GmbH, DE
12. RINA CONSULTING SPA, IT
13. R2M SOLUTION SRL, IT
14. Parco scientifico tecnologico per lambiente environment park torino SPA, IT
15. Ochsner Warmeppen GMBH, AT
16. Accademia europea Di Bolzano, IT
17. Institute of Flow Machines R. Szewalski Polish Academy of Sciences
18. Sonnenplatz GROSSCHONAU GMBH, AT
19. EUROPEN INNOVATION MARKETPLACE ASBL, B
Total budget: 5 987 875,00 €
Period of implementation: 1 October 2021 – 31 March 2025