Author(s): D. Cannizzaro; G. Pezzinga
Linked Author(s): Giuseppe Pezzinga
Keywords: Transient flow; Vaporous cavitation; Unsteady friction; 2D model; Conservation form
Abstract: The features of distributed vaporous cavitation models in transient cavitating flow are investigated. The proposed mathematical models are defined by the mass balance and equation allows a simple numerical solution without the need of shock equations for condensation. Both 1D and 2D models are considered to quantify the effect of friction in the evaluation of the velocity profile and of the wall shear stress. The equations are solved by that the models allow a good simulation of measured maximum heads, useful for engineering of observed energy dissipation. In some cases, the 2D model does not estimate properly the experimental phase and dissipations. This is probably due to the process of dissolved gas release and solution that can explain the reduction of the wave speed, and the energy and the experimental data of pressure head oscillations in transient cavitating flows shows dissipation not due to friction if a relaxation process is assumed. using the MacCormack scheme. The comparison between the results of the numerical runs purpose. As expected, the 1D model does not represent adequately the experimental data, momentum equations for liquid-vapour mixture. A new conservation form of the continuity except the first maximum oscillations, whereas the 2D model allows for a better evaluation simulation of experimental data. An axial-symmetric 2D flow is assumed, thus allowing the
Year: 2003