Micro-scale Processes

DC1: Influence of dissolved gases and minute liquid additives on cavitation inception, extent and dynamics

University of Ljubljana

DC2: Modelling of diffusion and reactions of hydroxyl radicals generated by cavity collapse

Helmholtz-Zentrum Dresden-Rossendorf

DC3: Influence of suspended particles on cavity inception and dynamics

Swiss Federal Technical Institute

Applications

DC4: Ozone-boosted hydrodynamic cavitation for pollutant removal from wastewater

Air Liquide S.A.

DC5: Improving mixing, nucleation, seed activation and CSD in crystallisers using HC

University of Limerick

DC6: Intensifying organic chemical reactions on- (in-) water under HC alone or combined with US, plasma

University of Turin

DC7: Biomass pre-treatment using hydrodynamic cavitation for enhancing valorisation potential

Biocore Environmental

Device Scale Processes

DC8: Multi-scale/multi-layer flow modelling of cavitation devices

Paul Scherrer Institut

DC9: Investigation of hydrodynamic cavitation and radical formation rates at system level

Technische Universität Dresden

DC10: Scale-up/Numbering-up of hydrodynamic cavitation devices

University of Limerick

CaviPRO Induction School Kicks Off at University of Limerick on September 23, 2024.

University of Limerick

Wrapping up 2024 with CaviPRO Quarterly Review Meeting.

Happy New Year 2025!

CaviPRO Summer School Set to Take Place at Technische Universität Dresden from 24th March.

Technische Universität Dresden

This project has received funding from the European Union’s Horizon Europe research and innovation programme under the Marie Skłodowska Curie Grant Agreement No. 101113564 [February 2024 – January 2028].


© CaviPRO: CaviPRO@ul.ie

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