Open AccessFormation of Cavitation and Supercavitation in a Rectangular Shape Nozzle
Author(s) -
Espanta Ferdowsian
Publication year - 2021
Publication title -
international journal of science and engineering applications
Language(s) - English
Resource type - Journals
ISSN - 2319-7560
DOI - 10.7753/ijsea1009.1002
Subject(s) - supercavitation , cavitation , nozzle , upwind scheme , discretization , momentum (technical analysis) , mechanics , solver , finite volume method , flow (mathematics) , physics , classical mechanics , mathematics , computer science , mathematical analysis , mathematical optimization , thermodynamics , finance , economics
Flow inside a rectangular shape nozzle is simulated in this study. Finite volume scheme is utilized as the main solver for the current study. Second order scheme is utilized to discretize pressure. Second order upwind scheme is utilized for solving momentum equation. Then the momentum equation is coupled with the continuity equation to obtain the pressure and velocity at each cell. Cavitation inception and super cavitation is also found and discussed in this study and the results were also verified with previous Winklhofer et al. experiments.