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Wake flow analysis and control on a 47° slant angle Ahmed body

Stephie Edwige (Plastic Omnium Auto Exterior, Sainte-Julie, France and CNAM, Paris, France)
Yoann Eulalie (Plastic Omnium Auto Exterior, Sainte-Julie, France)
Philippe Gilotte (Plastic Omnium Auto Exterior, Sainte-Julie, France)
Iraj Mortazavi (Conservatoire National des Arts et Metiers, Paris, France)

International Journal of Numerical Methods for Heat & Fluid Flow

ISSN: 0961-5539

Article publication date: 8 May 2018

199

Abstract

Purpose

The purpose of this paper is to present numerical investigations of the flow dynamic characteristics of a 47° Ahmed Body to identify wake flow control strategy leading to drag coefficient reduction, which could be tested later on sport utility vehicles.

Design/methodology/approach

This study begins with a mean flow topology description owing to dynamic and spectral analysis of the aerodynamic tensor. Then, the sparse promoting dynamic modal decomposition method is discussed and compared to other modal approaches. This method is then applied on the wall and wake pressure to determine frequencies of the highest energy pressure modes and their transfers to other frequency modes. This analysis is then used to design appropriated feedback flow control strategies.

Findings

This dynamic modal decomposition highlights a reduced number of modes at low frequency which drive the flow dynamics. The authors especially notice that the pressure mode at a Strouhal number of 0.22, based on the width between feet, induces aerodynamic losses close to the rear end. Strategy of the proposed control loop enables to dampen the energy of this mode, but it has been transferred to lower frequency mode outside of the selected region of interest.

Originality/value

This analysis and methodology of feedback control shows potential drag reduction with appropriated modal energy transfer management.

Keywords

Citation

Edwige, S., Eulalie, Y., Gilotte, P. and Mortazavi, I. (2018), "Wake flow analysis and control on a 47° slant angle Ahmed body", International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 28 No. 5, pp. 1061-1079. https://doi.org/10.1108/HFF-06-2017-0260

Publisher

:

Emerald Publishing Limited

Copyright © 2018, Emerald Publishing Limited

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