Your search keyword '"aerodynamics of flow"' showing total 3 results

1. Numerical Study of Transonic Axial Flow Rotating Cascade Aerodynamics – Part 1: 2D Case

Author

Irina Carmen ANDREI

Subjects

aerodynamics of flow, axial cascades/ axial compressor, transonic, numerical simulation, Navier-Stokes equations, turbulence models, flow solver, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The purpose of this paper is to present a 2D study regarding the numerical simulation of flow within a transonic highly-loaded rotating cascade from an axial compressor. In order to describe an intricate flow pattern of a complex geometry and given specific conditions of cascade’s loading and operation, an appropriate accurate flow model is a must. For such purpose, the Navier-Stokes equations system was used as flow model; from the computational point of view, the mathematical support is completed by a turbulence model. A numerical comparison has been performed for different turbulence models (e.g. KE, KO, Reynolds Stress and Spallart-Allmaras models). The convergence history was monitored in order to focus on the numerical accuracy. The force vector has been reported in order to express the aerodynamics of flow within the rotating cascade at the running regime, in terms of Lift and Drag. The numerical results, expressed by plots of the most relevant flow parameters, have been compared. It comes out that the selecting of complex flow models and appropriate turbulence models, in conjunction with CFD techniques, allows to obtain the best computational accuracy of the numerical results. This paper aims to carry on a 2D study and a prospective 3D will be intended for the same architecture.

Published

2014

2. Numerical Study of Transonic Axial Flow Rotating Cascade Aerodynamics -- Part 1: 2D Case.

Author

ANDREI, Irina Carmen

Subjects

*TRANSONIC aerodynamics, *TRANSONIC flow, *COMPUTER simulation, *NAVIER-Stokes equations, *MATHEMATICAL models of turbulence

Abstract

The purpose of this paper is to present a 2D study regarding the numerical simulation of flow within a transonic highly-loaded rotating cascade from an axial compressor. In order to describe an intricate flow pattern of a complex geometry and given specific conditions of cascade's loading and operation, an appropriate accurate flow model is a must. For such purpose, the Navier-Stokes equations system was used as flow model; from the computational point of view, the mathematical support is completed by a turbulence model. A numerical comparison has been performed for different turbulence models (e.g. KE, KO, Reynolds Stress and Spallart-Allmaras models). The convergence history was monitored in order to focus on the numerical accuracy. The force vector has been reported in order to express the aerodynamics of flow within the rotating cascade at the running regime, in terms of Lift and Drag. The numerical results, expressed by plots of the most relevant flow parameters, have been compared. It comes out that the selecting of complex flow models and appropriate turbulence models, in conjunction with CFD techniques, allows to obtain the best computational accuracy of the numerical results. This paper aims to carry on a 2D study and a prospective 3D will be intended for the same architecture. [ABSTRACT FROM AUTHOR]

Published

2014

3. Numerical Study of Transonic Axial Flow Rotating Cascade Aerodynamics – Part 1: 2D Case

Author

Elie Carafoli and Irina-Carmen Andrei

Subjects

flow solver, turbulence models, aerodynamics of flow, K-epsilon turbulence model, business.industry, Turbulence, lcsh:Motor vehicles. Aeronautics. Astronautics, Aerospace Engineering, Mechanical engineering, Aerodynamics, Reynolds stress, Mechanics, Computational fluid dynamics, transonic, Physics::Fluid Dynamics, axial cascades/ axial compressor, Axial compressor, Flow (mathematics), Control and Systems Engineering, Cascade, numerical simulation, Navier-Stokes equations, lcsh:TL1-4050, business, Mathematics

Abstract

The purpose of this paper is to present a 2D study regarding the numerical simulation of flow within a transonic highly-loaded rotating cascade from an axial compressor. In order to describe an intricate flow pattern of a complex geometry and given specific conditions of cascade’s loading and operation, an appropriate accurate flow model is a must. For such purpose, the Navier-Stokes equations system was used as flow model; from the computational point of view, the mathematical support is completed by a turbulence model. A numerical comparison has been performed for different turbulence models (e.g. KE, KO, Reynolds Stress and Spallart-Allmaras models). The convergence history was monitored in order to focus on the numerical accuracy. The force vector has been reported in order to express the aerodynamics of flow within the rotating cascade at the running regime, in terms of Lift and Drag. The numerical results, expressed by plots of the most relevant flow parameters, have been compared. It comes out that the selecting of complex flow models and appropriate turbulence models, in conjunction with CFD techniques, allows to obtain the best computational accuracy of the numerical results. This paper aims to carry on a 2D study and a prospective 3D will be intended for the same architecture.

Published

2014