A 2-D domain-decomposition (DD) strategy, developed for marine applications involving gas cavities, is presented. The DD couples a boundary element method with a Navier-Stokes solver using a level-set (LS) technique to handle the evolution of the gas-liquid interface. The deformation of compressible cavities is handled by means of a simplified model assuming uniform pressure and adiabatic conditions. Merging and splitting phenomena are described as isothermal processes without chemical reactions. Benchmark solutions are used for the verification of the LS with compressible cavities. The resulting DD method is applied to study the initial stages of a water-shipping event on the deck of a barge-shaped ship.
Domain-decomposition strategy for marine applications with cavity entrapments
G Colicchio;M Greco;
2011
Abstract
A 2-D domain-decomposition (DD) strategy, developed for marine applications involving gas cavities, is presented. The DD couples a boundary element method with a Navier-Stokes solver using a level-set (LS) technique to handle the evolution of the gas-liquid interface. The deformation of compressible cavities is handled by means of a simplified model assuming uniform pressure and adiabatic conditions. Merging and splitting phenomena are described as isothermal processes without chemical reactions. Benchmark solutions are used for the verification of the LS with compressible cavities. The resulting DD method is applied to study the initial stages of a water-shipping event on the deck of a barge-shaped ship.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
