Highly efficient and fault tolerant SiC-based smart transformer in distributed energy systems (Q84159)
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Project Q84159 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Highly efficient and fault tolerant SiC-based smart transformer in distributed energy systems |
Project Q84159 in Poland |
Statements
3,499,833.0 zloty
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3,499,833.0 zloty
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100.0 percent
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1 December 2016
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31 May 2020
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POLITECHNIKA WARSZAWSKA
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The rapid development of distributed energy systems (DES), including fast increasing number of the renewable energy sources demand the change of classical grid into new smart grids integrating all distributed elements eg. loads/sources/energy storages. Used for this purpose conventional transformers are capable only to adjust the voltage level. Due to the nature of extremely different types of energy sources, loads and frequent voltage disturbances occurring in DES new solution is demanded. The proposed solution is the application of multifunctional power electronics Smart Transformer (ST), that is able to not only meet current requirements of DES integration, but also respond to the future challenges, defined by the constant progress of an electricity consumption in all fields of life. The aim of this project is to develop an innovate technology of highly efficient and fault tolerant SiC-based ST, including design and control of ST with optimal energy flow management of its units. (Polish)
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The rapid development of distributed energy systems (DES), including fast increasing number of the renewable energy sources demand the change of classical grid into new smart grids integrating all distributed elements eg. loads/sources/energy storages. Used for this purpose conventional transformers are capable only to adjust the voltage level. Due to the nature of extremely different types of energy sources, loads and frequent voltage disturbances occurring in DES new solution is demanded. The proposed solution is the application of multifunctional power electronics Smart Transformer (ST), that is able to not only meet current requirements of DES integration, but also respond to the future challenges, defined by the constant progress of an electricity consumption in all fields of life. The aim of this project is to develop an Innovate technology of highly efficient and fault tolerant SiC-based ST, including design and control of ST with optimal energy flow management of its units. (English)
14 October 2020
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Le développement rapide des systèmes énergétiques distribués (DES), y compris l’augmentation rapide du nombre de sources d’énergie renouvelables, exige la transformation du réseau classique en nouveaux réseaux intelligents intégrant tous les éléments distribués, par exemple les charges/sources/stockages d’énergie. Utilisés à cette fin, les transformateurs conventionnels ne sont capables que d’ajuster le niveau de tension. En raison de la nature de types extrêmement différents de sources d’énergie, les charges et les perturbations fréquentes de tension survenant dans la nouvelle solution DES est exigée. La solution proposée est l’application de l’électronique multifonctionnelle Smart Transformateur (ST), qui est capable non seulement de répondre aux exigences actuelles de l’intégration DES, mais aussi de répondre aux défis futurs, définis par le progrès constant d’une consommation d’électricité dans tous les domaines de la vie. L’objectif de ce projet est de développer une technologie innovante de ST hautement efficace et tolérant aux pannes, y compris la conception et le contrôle de ST avec une gestion optimale du flux d’énergie de ses unités. (French)
30 November 2021
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Die rasche Entwicklung von dezentralen Energiesystemen (DES), einschließlich der rasch steigenden Zahl der erneuerbaren Energiequellen, erfordert den Wechsel des klassischen Netzes in neue intelligente Netze, die alle verteilten Elemente, z. B. Lasten/Quellen/Energiespeicher, integrieren. Für diesen Zweck sind konventionelle Transformatoren nur in der Lage, den Spannungspegel einzustellen. Aufgrund der Art extrem unterschiedlicher Energiequellen werden Belastungen und häufige Spannungsstörungen in DES neue Lösung gefordert. Die vorgeschlagene Lösung ist die Anwendung der multifunktionalen Leistungselektronik Smart Transformer (ST), die in der Lage ist, nicht nur die aktuellen Anforderungen der DES-Integration zu erfüllen, sondern auch auf die künftigen Herausforderungen zu reagieren, die durch den stetigen Fortschritt eines Stromverbrauchs in allen Lebensbereichen definiert werden. Ziel dieses Projekts ist es, eine innovative Technologie hocheffizienter und fehlertoleranter SiC-basierter ST zu entwickeln, einschließlich Design und Steuerung von ST mit optimalem Energieflussmanagement seiner Einheiten. (German)
7 December 2021
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De snelle ontwikkeling van gedistribueerde energiesystemen (DES), met inbegrip van een snel toenemend aantal hernieuwbare energiebronnen, vereist de overgang van klassiek net naar nieuwe slimme netwerken waarin alle gedistribueerde elementen, zoals belastingen/bronnen/energieopslagplaatsen, worden geïntegreerd. Gebruikt voor dit doel conventionele transformatoren zijn alleen in staat om het spanningsniveau aan te passen. Vanwege de aard van de zeer verschillende soorten energiebronnen, worden belastingen en frequente spanningsstoringen die optreden in DES nieuwe oplossing gevraagd. De voorgestelde oplossing is de toepassing van multifunctionele stroomelektronica Smart Transformer (ST), die niet alleen kan voldoen aan de huidige eisen van DES-integratie, maar ook kan inspelen op de toekomstige uitdagingen, die worden bepaald door de constante vooruitgang van een elektriciteitsverbruik op alle gebieden van het leven. Het doel van dit project is om een innovatieve technologie te ontwikkelen van zeer efficiënte en fouttolerante SiC-gebaseerde ST, inclusief ontwerp en controle van ST met een optimaal energiestroombeheer van zijn eenheden. (Dutch)
16 December 2021
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Il rapido sviluppo dei sistemi energetici distribuiti (DES), compreso il rapido aumento del numero di fonti di energia rinnovabili, richiede la trasformazione della rete classica in nuove reti intelligenti che integrano tutti gli elementi distribuiti, ad esempio carichi/fonti/immagazzini di energia. Utilizzati per questo scopo i trasformatori convenzionali sono in grado solo di regolare il livello di tensione. A causa della natura di tipi estremamente diversi di fonti di energia, i carichi e le frequenti perturbazioni di tensione che si verificano nella nuova soluzione DES sono richiesti. La soluzione proposta è l'applicazione dell'elettronica multifunzionale Smart Transformer (ST), in grado non solo di soddisfare le attuali esigenze di integrazione DES, ma anche di rispondere alle sfide future, definite dal costante progresso di un consumo di energia elettrica in tutti i settori della vita. L'obiettivo di questo progetto è quello di sviluppare una tecnologia innovativa di ST altamente efficiente e tollerante ai guasti, compresa la progettazione e il controllo di ST con una gestione ottimale del flusso energetico delle sue unità. (Italian)
16 January 2022
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Identifiers
POIR.04.04.00-00-1A92/16
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