PYSOLO | PYrolysis of biomass by concentrated SOLar pOwer

Summary
PYSOLO (PYrolysis of biomass by concentrated SOLar pOwer) project aims at preparing the ground for a novel groundbreaking and fully renewable process combining concentrated solar power and biomass pyrolysis. Thanks to the use of solar heat in the pyrolysis process, the production of valuable products bio-oil, biochar and pyrogas can be maximized and the associated CO2 emission minimized, with economic and environmental benefits compared to conventional pyrolysis. The proposed system uses particles heat carrier, ensuring operational flexibility and avoiding the need of heat transfer surface in the pyrolysis reactor that facilitates the system scale-up.

Specifically, PYSOLO process aims at developing at TRL4 the two key unit operations of this novel solar pyrolysis system, namely: (i) the solar particle receiver and (ii) the pyrolysis reactor with the associated particle-char separator. The very innovative feature of PYSOLO lies in its innovative and unique coupling of pyrolysis technology with high temperature CSP system. This ground-breaking feature can potentially offer the following main advantages:

- delivering solar bio-oil, electricity or pyrogas and biochar for many energy and non-energy uses, when solar energy supplies the heat necessary for the pyrolysis process, either in sunny hours or by exploiting high temperature stored solids;
- run in self-mode the pyrolysis process (i.e. with electric heating or burning pyrogas and biochar), when solar energy is not sufficient and the TES unit is discharged;
- providing balancing services to the electric grid:
1. from the conversion of the available pyrogas when solar energy or TES are sufficient to maintain the pyrolysis process running and the grid requires the generation of additional electric power;
2. by using low-cost excess electricity from non-programmable RES (i.e. PV and wind) and converting it in high temperature thermal energy via the induction electric heating system.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101118270
Start date: 01-07-2023
End date: 30-06-2027
Total budget - Public funding: 4 997 162,50 Euro - 4 997 162,00 Euro
Cordis data

Original description

PYSOLO (PYrolysis of biomass by concentrated SOLar pOwer) project aims at preparing the ground for a novel groundbreaking and fully renewable process combining concentrated solar power and biomass pyrolysis. Thanks to the use of solar heat in the pyrolysis process, the production of valuable products bio-oil, biochar and pyrogas can be maximized and the associated CO2 emission minimized, with economic and environmental benefits compared to conventional pyrolysis. The proposed system uses particles heat carrier, ensuring operational flexibility and avoiding the need of heat transfer surface in the pyrolysis reactor that facilitates the system scale-up.

Specifically, PYSOLO process aims at developing at TRL4 the two key unit operations of this novel solar pyrolysis system, namely: (i) the solar particle receiver and (ii) the pyrolysis reactor with the associated particle-char separator. The very innovative feature of PYSOLO lies in its innovative and unique coupling of pyrolysis technology with high temperature CSP system. This ground-breaking feature can potentially offer the following main advantages:

- delivering solar bio-oil, electricity or pyrogas and biochar for many energy and non-energy uses, when solar energy supplies the heat necessary for the pyrolysis process, either in sunny hours or by exploiting high temperature stored solids;
- run in self-mode the pyrolysis process (i.e. with electric heating or burning pyrogas and biochar), when solar energy is not sufficient and the TES unit is discharged;
- providing balancing services to the electric grid:
1. from the conversion of the available pyrogas when solar energy or TES are sufficient to maintain the pyrolysis process running and the grid requires the generation of additional electric power;
2. by using low-cost excess electricity from non-programmable RES (i.e. PV and wind) and converting it in high temperature thermal energy via the induction electric heating system.

Status

SIGNED

Call topic

HORIZON-CL5-2022-D3-02-04

Update Date

31-07-2023
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Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.5 Climate, Energy and Mobility
HORIZON.2.5.2 Energy Supply
HORIZON-CL5-2022-D3-02
HORIZON-CL5-2022-D3-02-04 Technological interfaces between solar fuel technologies and other renewables