Journal of Mechanical Engineering and Sciences, Volume (14), No (1), Year (2020-3) , Pages (6526-6537)

Title : ( EFFECTOFAIRFOIL DISTANCETO WATERSURFACE ON STATIC STALL )

Authors: yegane azargoon , Mohammad Hassan Djavareshkian , ESMAEIL ESMAEILIFAR ,

Citation: BibTeX | EndNote

Abstract

In this study, viscous, turbulent, and steady flow around an airfoil near the water surface has been simulated through a numerical method. In this simulation, Navier-Stokes equations have been solved using the finite volume method with a discretized second-order accuracy and PIMPLE algorithm. The volume of fraction (VOF) method has been employed to predict the free surface flow. A part of the simulation results has been validated through numerical and experimental data. Besides considering the style of flow separation in the angles of numerous attacks and airfoil static stall near the surface of the water. For this purpose, the airfoil simulation has been processed airfoil in the 68,000 Reynolds number, angle of attack of 2.5 to 11 degree and different distances from the water surface ( h/c = 0.5, 1, ∞). In a larger angle of attacks, flow is initially separated from the leading edge of the surface, and then it attaches to the surface at a lower point. This reattachment leads to an increase in adverse pressure gradient and the formation of a larger separation in the downstream of the airfoil. The pressure gradient dramatically increases, and the flow gets separated from the upstream of the airfoil. Upon lowering distance from the surface, static stall takes place at a higher point and a lower angle of attack, respectively.

Keywords

Water Surface; Separation; Static stall;Airfoil.
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@article{paperid:1079368,
author = {Azargoon, Yegane and Djavareshkian, Mohammad Hassan and ESMAEILIFAR, ESMAEIL},
title = {EFFECTOFAIRFOIL DISTANCETO WATERSURFACE ON STATIC STALL},
journal = {Journal of Mechanical Engineering and Sciences},
year = {2020},
volume = {14},
number = {1},
month = {March},
issn = {2289-4659},
pages = {6526--6537},
numpages = {11},
keywords = {Water Surface; Separation; Static stall;Airfoil.},
}

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%0 Journal Article
%T EFFECTOFAIRFOIL DISTANCETO WATERSURFACE ON STATIC STALL
%A Azargoon, Yegane
%A Djavareshkian, Mohammad Hassan
%A ESMAEILIFAR, ESMAEIL
%J Journal of Mechanical Engineering and Sciences
%@ 2289-4659
%D 2020

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