MW-scale fluidized particle-driven CSP prototype demonstration

HORIZON.2.5HORIZON-IAID: 101122347
EC Contribution
€52,735
Consortium Size
11 orgs
Summary

The Powder2Power project aims to demonstrate at the MW-scale (TRL7) the operation of an innovative, cost effective and more reliable complete fluidized particle-driven Concentrated Solar Technology that can be applied for both power and industrial heat production. The prototype to be developed and tested is based on the modification and the improvement of an experimental loop built in the framework of the previous H2020 project Next-CSP. It will include all the components of a commercial plant, a multi-tube fluidized bed solar receiver (2 MWth), an electricity-driven particle superheater (300 kW), a hot store, a particle-to-working fluid cross-flow fluidized bed heat exchanger (2 MWth), a turbine (hybrid Brayton cycle gas turbine, 1.2 MWe), a cold store and a vertical particle transport system (~100 m). It is planned to organize the experimental campaign at the Themis tower (France) during one year. Adding an electricity-driven particle superheater will enable to validate a PV-CSP concept working at 750°C that is expected to result in electricity cost reduction with respect to the state-of-the-art. At utility-scale, this temperature allows to adopt high efficiency conversion cycles, typically 750°C for supercritical CO2 (sCO2) cycles. The expected increase in conversion efficiency (sun to power) of the P2P solution with respect to molten salt technology is in the range 5 to 9% and the cost reduction is 5.4%. (LCOE). The hybrid CSP-PV concept enables to reach 9% in efficiency increase and the CSP-only concept 5%. The proposed approach includes the sustainability assessment in environmental and socio-economic terms. A special attention will be brought to elaborate in a transparent way all documents necessary to ensure replicability, up-scaling and to assist future planning decisions. Ten participants from 6 EU countries constitute the P2P consortium. Six participants are industrial and service companies, and four are public research institutions and universities.

Consortium (11)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (4)
Heat Losses during Hot Particle Storage
E3S Web of Conferences (Environment, Energy and Earth Sciences), Proceedings of ESRE 2024· 2025
Deng Y., Le Gal A., Dewil R., Vanierschot M., Baeyens J.
Optimization of the integration of fluidized bed particle heat exchanger in sCO₂-based solar tower plants
Conference Proceedings of the 6th Edition of the European Conference on Supercritical CO₂ (sCO₂) for Energy Systems· 2025DOI
Girelli S., Alfani D., Astolfi M., Binotti M., Silva P.
Solar-thermal Application of Particles: Flowability as Critical Application Parameter
E3S Conference Proceedings, Proceedings of CESEE 2025· 2025
Baeyens J., Dewil R., Flamant G., Le Gal A., Deng Y.
Techno-Economic Analysis and Optimal sCO2 Power Cycle Configuration for Novel CSP Plants Adopting Tubular Fluidized Particles Central Receivers
Volume 11: Supercritical CO2· 2024DOI
Dario Alfani, Filip Sobic, Marco Astolfi, Marco Binotti, Paolo Silva
Deliverables (4)
Other Results (1)
Periodic Reporting for period 1 - POWDER2POWER (MW-scale fluidized particle-driven CSP prototype demonstration)