The paper describes a three-dimensional Euler solver, based on a cell vertex finite volume explicit method, for calculating cascade flows. The features of the adopted algorithm, such as finite volume discretization, artificial dissipation and boundary condition implementation, are examined. Comparisons with experimental and theoretical data about a low pressure turbine cascade enable the solver to be validated. A food agreement with the results of other authors is found.
A 3D Compressible Euler Solver for Turbomachinery Cascades / Cravero, C; Marini, Martino; Satta, A.. - Part 4 (of 4);:(1994), pp. 674-678. ( 29th Intersociety Energy Conversion Engineering Conference Monterey USA 7-11 August).
A 3D Compressible Euler Solver for Turbomachinery Cascades
MARINI, Martino;
1994-01-01
Abstract
The paper describes a three-dimensional Euler solver, based on a cell vertex finite volume explicit method, for calculating cascade flows. The features of the adopted algorithm, such as finite volume discretization, artificial dissipation and boundary condition implementation, are examined. Comparisons with experimental and theoretical data about a low pressure turbine cascade enable the solver to be validated. A food agreement with the results of other authors is found.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
