Description du projet
De nouvelles frontières pour l’énergie solaire à concentration
L’énergie solaire à concentration (CSP) est appelée à jouer un rôle clé dans une économie décarbonée. Malgré son potentiel dans les grandes installations centralisées, les considérations économiques inhérentes à ses processus compromettent sa viabilité à plus petite échelle. Un ancien projet financé par l’UE, baptisé AMADEUS, a dévoilé un dispositif thermoélectrique hybride capable de convertir efficacement l’énergie solaire en énergie électrique. Dans le cadre du projet TECSAS, les chercheurs prévoient de mettre au point un prototype de convertisseur thermo-ionique hybride destiné à être utilisé prochainement dans la technologie CSP, et visant une efficacité de conversion énergétique maximale comprise entre 20 % et 45 %. TECSAS évaluera la faisabilité technologique et commerciale de centrales CSP de petite envergure alimentées par ce nouveau convertisseur, et déterminera si les propriétaires de centrales sont enclins à l’intégrer.
Objectif
Concentrating Solar Power (CSP) has long been seen as one of the main routes for moving towards carbon neutrality, characterised by both overall system efficiency and Levelised Cost of Energy comparable with photovoltaics. Unfortunately, CSP is currently only implemented through very large centralized plant scales (>100 MW capacity), as process economics make this technology unsustainable at a smaller scale. That’s why, apart from few demo-plants, there is no commercial plant available in the 50 kW – 1 MW range.
In the AMADEUS FET-OPEN project we have developed a thermionic-based converter, that is applied in TECSAS to concentrated solar energy and is able to selectively absorb the radiation to produce electrical power by exploiting efficiently sunlight and excess heat. When applied in substitution of state of the art traditional passive receiver elements, the proposed TECSAS technology allows a maximum increase of the CSP conversion efficiency from 20% up to 45%, potentially more than twice as much state of the art performances, regardless of the plant size.
This can make existing and under construction CSP plants much more efficient, and at the same time allows thinking of scaling down CSP plants to sizes that are currently econonically unsustainable (≤1 MW).
The aim of the TECSAS Launchpad project is to evaluate the technological and business feasibility of downscaled CSP plants (≤ 1 MW) powered by our thermionic converter, as well as to assess the willingness to pay of large scale plant owners which want to integrate TECSAS for performance enhancement. If successful, we will prove that CSP can be applied to benefit several industrial settings, small rural communities and other residential applications.
Champ scientifique
- social scienceseconomics and businesseconomics
- engineering and technologyenvironmental engineeringenergy and fuelsenergy conversion
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energysolar energyphotovoltaic
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energysolar energyconcentrated solar power
Mots‑clés
Programme(s)
Régime de financement
CSA - Coordination and support actionCoordinateur
00185 Roma
Italie