In this work we consider a multiphase interface advection problem, solved with a volume of fluid (VOF) technique, coupled with a FSI problem. A Cartesian mesh grid and an unstructured one are used to solve the VOF and FSI problem, respectively. We propose a new algorithm to project the velocity field, solution of the FSI problem, into the Cartesian grid. The FSI and the energy balance problems are solved with a parallel multigrid C++ Finite Element code.
Numerical simulation of a falling drop on a bending wall by coupling a VOF method with a fluid structure interaction solver / Cerroni, Daniele; Chirco, Leonardo*; Vià, Roberto Da; Manservisi, Sandro. - STAMPA. - 1978:(2018), pp. 270004.1-270004.13. (Intervento presentato al convegno International Conference of Numerical Analysis and Applied Mathematics, ICNAAM 2017 tenutosi a The MET Hotel, grc nel 2017) [10.1063/1.5043897].
Numerical simulation of a falling drop on a bending wall by coupling a VOF method with a fluid structure interaction solver
Chirco, Leonardo;Manservisi, Sandro
2018
Abstract
In this work we consider a multiphase interface advection problem, solved with a volume of fluid (VOF) technique, coupled with a FSI problem. A Cartesian mesh grid and an unstructured one are used to solve the VOF and FSI problem, respectively. We propose a new algorithm to project the velocity field, solution of the FSI problem, into the Cartesian grid. The FSI and the energy balance problems are solved with a parallel multigrid C++ Finite Element code.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
