Descrizione del progetto
Fine alle oscillazioni e alle cadute della linea per reti elettriche più efficienti e stabili
I cambiamenti climatici globali sono strettamente correlati alle attività umane e all’energia che le alimenta. Migliorare l’efficienza energetica e la sostenibilità è pertanto un pilastro portante della maggior parte delle iniziative politiche. Attualmente, la maggior parte delle reti elettriche si basa sulla corrente alternata (CA) perché i generatori, i motori e i trasformatori sfruttano il principio di induzione. Aumentando l’apporto di corrente continua interna (CC) basata su fonti di energia rinnovabile, l’elettromobilità e lo stoccaggio in batterie, reti CC a bassa tensione o CC abbinata alla CA in una rete ibrida potrebbero portare a una distribuzione dell’elettricità più stabile, efficiente e sostenibile, a costi inferiori. Il progetto HYPERRIDE, finanziato dall’UE, sta sviluppando le tecnologie per rendere questa operazione possibile con dimostrazioni pianificate in svariati casi d’uso, abbinandole a modelli aziendali per i prodotti, i servizi e le applicazioni risultanti.
Obiettivo
The project HYPERRIDE (HYbrid Provision of Energy based on Reliabilty and Resiliancy via Integration of Dc Equipment) contributes to the field implementation of DC and hybrid ACDC grids. Starting with the definition of most relevant fields of application for DC grids (local microgrids, grid enforcement to overcome congestions, coupling of AC grid sections, etc.), the enabling technologies will be specified in detail on different levels. Starting from the system perspective, guidelines for grid planning and operation are developed. To optimize invest for the use case dependent use of assets available sizing tools are adapted for the field of DC grids.DC circuit breakers are key technologies for grid protection needed to overcome the main concerns related to these infrastructures. Therefore, HYPERRIDE will raise the TRL of the most promising approaches currently available with a main focus on MVDC breakers. To enable grid automation DC sensors are developed further to provide field ready devices to create data for optimal grid automation. Automation algorithms will be created, validated in a test platform and transferred towards demonstration. This also involves concepts and solutions for cyber security and fault detection. In case of grid faults necessary solutions are developed to prevent cascading effects. For fault prevention databases are created to trigger preventive measures. With demonstrations in three countries (Aachen/Germany, Lausanne/Switzerland, Terni/Italy) the project will showcase relevant and above-mentioned enabling technologies within a wide range of use cases. Benefits of the solutions will be evaluated, especially the integration potential of renewables with respect to conventional AC grids. Finally, business models are created for the products, services and applications in HYPERRIDE.Consequently HYPERRIDE will actively identify and provide solutions to overcome barriers for a successful roll-out of new infrastructure concepts throughout Europe.
Campo scientifico
- natural sciencescomputer and information sciencesdatabases
- social sciencessociologyindustrial relationsautomation
- social scienceseconomics and businessbusiness and managementbusiness models
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
- natural sciencescomputer and information sciencescomputer security
Parole chiave
Programma(i)
Argomento(i)
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Vedi altri progetti per questo bandoBando secondario
H2020-LC-SC3-2020-EC-ES-SCC
Meccanismo di finanziamento
IA - Innovation actionCoordinatore
1210 Wien
Austria