International Journal of Advancements in Mechanical and Aeronautical Engineering, Volume (1), No (4), Year (2014-12) , Pages (59-63)

Title : ( Transonic Flow Simulation Around the plunging Airfoil with Oscillation of Flow Boundary Condition )

Authors: Mohammad Hassan Djavareshkian , Amirreza Faghihi ,

Citation: BibTeX | EndNote

Abstract

A new pressure based implicit procedure to solve the Euler and Navier-Stokes equations is developed to predict transonic viscous and inviscid flows around the plunging airfoil with high resolution scheme. In this process, nonorthogonal and non moving mesh with collocated finite volume formulation are used. In order to simulate plunging airfoil, oscillation of flow boundary condition is applied. The boundedness criteria for this procedure are determined from Normalized Variable Diagram (NVD) scheme. The procedure incorporates the k-ε eddy viscosity turbulence model. In the new algorithm, the computation time is considerably reduced. This process is tested for inviscid and turbulent transonic aerodynamic flows around plunging airfoil. The results are compared with other existing numerical solutions and with experiment data. The comparisons show that the resolution quality of the developed algorithm is considerable.

Keywords

, Plunging, Transonic, Inviscid, Viscous, Boundary condition
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@article{paperid:1046017,
author = {Djavareshkian, Mohammad Hassan and Faghihi, Amirreza},
title = {Transonic Flow Simulation Around the plunging Airfoil with Oscillation of Flow Boundary Condition},
journal = {International Journal of Advancements in Mechanical and Aeronautical Engineering},
year = {2014},
volume = {1},
number = {4},
month = {December},
issn = {2372-4153},
pages = {59--63},
numpages = {4},
keywords = {Plunging; Transonic; Inviscid; Viscous; Boundary condition},
}

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%0 Journal Article
%T Transonic Flow Simulation Around the plunging Airfoil with Oscillation of Flow Boundary Condition
%A Djavareshkian, Mohammad Hassan
%A Faghihi, Amirreza
%J International Journal of Advancements in Mechanical and Aeronautical Engineering
%@ 2372-4153
%D 2014

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