SINSEON (DIT.AD021.043)
Area tematica
Ingegneria, ICT e tecnologie per l'energia e i trasporti
Area progettuale
Matematica Applicata (DIT.AD021)Struttura responsabile del progetto di ricerca
Istituto di iNgegneria del Mare (INM)
Responsabile di progetto
SALVATORE MARRONE
Telefono: 06/50299343
E-mail: salvatore.marrone@cnr.it
Abstract
The objective of the Project, SinSEOn is to perform sloshing simulations characterized by 3-hours real time duration with realistic severe sea-state by cutting edge technologies. Thanks to the expertise gained in the development of the new-generation CFD codes and, in particular with Lagrangian Particle-based models, the CNR-INSEAN researchers will collaborate with HHI in order to apply and validate the reliability of the SPH method in the context of the sloshing flows. The 3D parallel SPH code developed at CNR-INSEAN will be used to perform long time sloshing simulations in a 6-DOF tank moved with a realistic time-varying law. The outcomes of the simulations will be compared to the experiments performed by HHI. Possible comparisons with simulations performed by HHI engineers with standard CFD codes will be considered in order to verify the actual advantage of using SPH models in such situations.
Obiettivi
The objective of the Project, SinSEOn is to perform sloshing simulations characterized by 3-hours real time duration with realistic severe sea-state by cutting edge technologies. Thanks to the expertise gained in the development of the new-generation CFD codes and, in particular with Lagrangian Particle-based models, the CNR-INSEAN researchers will collaborate with HHI in order to apply and validate the reliability of the SPH method in the context of the sloshing flows. The 3D parallel SPH code developed at CNR-INSEAN will be used to perform long time sloshing simulations in a 6-DOF tank moved with a realistic time-varying law. The outcomes of the simulations will be compared to the experiments performed by HHI. Possible comparisons with simulations performed by HHI engineers with standard CFD codes will be considered in order to verify the actual advantage of using SPH models in such situations.
Data inizio attività
01/03/2016
Parole chiave
oscillation simulation - sloshing simulations
Ultimo aggiornamento: 09/06/2025