Title of article
Experimental Investigation of Flow Control over an Ahmed Body using DBD Plasma Actuator
Author/Authors
Shadmani, S Department of Mechanical Engineering - West Tehran Branch, Islamic Azad University, Tehran, Iran , Mousavi Nainiyan, S. M Department of Mechanical Engineering - West Tehran Branch, Islamic Azad University, Tehran, Iran , Mirzaei, M Department of Aerospace Engineering - K. N. Toosi University of Technology, Tehran, Iran , Ghasemiasl, R Department of Mechanical Engineering - West Tehran Branch, Islamic Azad University, Tehran, Iran , Pouryoussefi, S. G Department of Aerospace Engineering - K. N. Toosi University of Technology, Tehran, Iran
Pages
10
From page
1267
To page
1276
Abstract
Ahmed body is a standard configuration of road vehicles and most of the studies of automobile aerodynamics
are performed based on it. In this paper, the plasma actuator was used as an active flow control method to
control the flow around the rear part of the Ahmed body with the rear slant angle of 25°. Experiments were
carried out in a wind tunnel at two different velocities of U=10m/s and U=20m/s using steady and unsteady
excitations. The hot-wire anemometer was used to measure the vortex shedding frequency at the downstream
of the body. Pressure distribution was measured using 52 sensors and total drag force was extracted with a
load cell. Furthermore, smoke flow visualization was employed to investigate the flow pattern around the
body. The results showed that the plasma actuator was more effective on the pressure distribution and total
drag force at the velocity of U=10m/s. In fact, by applying steady and unsteady excitations there was 7.3%
and 5% drag reduction; respectively. While at the velocity of U=20m/s; the actuator had no significant effect
on pressure distribution and total drag. As a remarkable result, the plasma actuator, especially in the steady
actuation, has demonstrated its effectiveness on dispersing the longitudinal vortices and suppressing the
separated flow on the rear slant at low velocities.
Keywords
Drag reduction , Wind tunnel , Automotive , Aerodynamics
Journal title
Astroparticle Physics
Serial Year
2018
Record number
2468598
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