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Technologies for geothermal to enhance competitiveness in smart and flexible operation

Descrizione del progetto

L’energia geotermica diventa flessibile ed economica

Le fonti rinnovabili come il sole e il vento aumentano l’incertezza e la variabilità della generazione e dell’erogazione di energia ai consumatori. Gli impianti geotermici possono contribuire a bilanciare le fluttuazioni operando in una modalità più flessibile per rispondere a improvvisi cambiamenti nel consumo di energia. Il progetto GeoSmart, finanziato dall’UE, sta lavorando a metodi per immagazzinare energia termica quando la domanda è bassa, in modo che, all’aumentare della domanda, ve ne sia una quantità sufficiente da liberare. Il progetto prevede inoltre di creare un sistema di raffreddamento ibrido per l’impianto a ciclo organico Rankine che prevenga la degradazione dell’efficienza dovuta ai cambiamenti stagionali. Complessivamente, le tecnologie GeoSmart consentiranno agli impianti geotermici di rispondere in maniera efficiente sotto il profilo dei costi alle diverse esigenze di calore ed energia.

Obiettivo

Future energy systems will face serious operational challenges with system reliability due to fluctuations caused by progressive integration of solar and wind power. Reliable and sustainable energy sources that can be utilized in large parts of Europe and that are able to balance these fluctuations are needed. Geothermal energy has the potential to become an excellent source for both base and flexible energy demands, providing much lower environmental footprint than both fossil and biomass fuels, as well as much less risks and societal resistance than nuclear power.

There are however some techno-economic challenges which needs to be addressed to facilitate highly flexible operation of geothermal power plants. In GeoSmart, we propose to combine thermal energy storages with flexible ORC solutions to provide a highly flexible operational capability of a geothermal installation. During periods with low demand, energy will be stored in the storage to be released at a later stage when the demand is higher. As this approach does not influence the flow condition at the wellhead, critical infrastructures will be unaffected under variable energy generation. To improve efficiency, we also propose a hybrid cooling system for the ORC plant to prevent efficiency degradation due to seasonal variations. Efficiency will be further improved by larger power plant heat extraction enabled due to a scaling reduction system consisting of specially design retention tank, heat exchanger, and recombining with extracted gases. The scaling reduction system has the potential to almost double power production of many medium enthalpy geothermal plants. Overall, GeoSmart technologies will drastically reduce geothermal energy costs, making it cost competitive with its fossil fuel-based counterparts.
To bring GeoSmart technology to TRL7/8, we will demonstrate it in a medium/high (Turkey) and low (Belgium) temperature fields to show its potential benefits and applicability in different settings.

Invito a presentare proposte

H2020-LC-SC3-2018-2019-2020

Vedi altri progetti per questo bando

Bando secondario

H2020-LC-SC3-2018-RES-SingleStage

Meccanismo di finanziamento

IA - Innovation action

Coordinatore

TWI LIMITED
Contribution nette de l'UE
€ 3 818 330,00
Indirizzo
GRANTA PARK GREAT ABINGTON
CB21 6AL Cambridge
Regno Unito

Mostra sulla mappa

Regione
East of England East Anglia Cambridgeshire CC
Tipo di attività
Private for-profit entities (excluding Higher or Secondary Education Establishments)
Collegamenti
Costo totale
€ 4 440 490,00

Partecipanti (23)