International audienceWe consider the first closed-loop separation control experiment on an Ahmed body using a robust, model-based strategy called "sliding mode control" (SMC). The goal is to reduce and further maintain the aerodynamic drag of the square-back Ahmed body flow at Re h = 9 × 10 4 (based on the body height). This study also investigates the practical feasibility of this approach which shows a great promise for industrial applications. The flow is manipulated by a slotted jet placed on the top trailing edge, combined with a predefined angle direction, and sensed by a drag balance. Base pressure and lift measurements are also obtained in real-time. The interaction between the air jet actuator and the mean near-wake flow are depic...
This study evaluates the drag reduction strategy of suction and blowing on idealize automotive vehic...
With constantly increasing environmental constraints, the need for ever more efficient aeronautical ...
This thesis covers topics that span bluff-body aerodynamics, hybrid RANS-LES CFD methods, flow contr...
International audienceWe consider the first closed-loop separation control experiment on an Ahmed bo...
This research investigates the turbulent flow past a blunt bluff body. The square-back Ahmed body i...
The wakes of bluff bodies, such as automotive vehicles, exhibit complex behaviour due to three-dimen...
The paper presents the results of an experimental investigation wherein the bullet form drag force a...
International audienceThe control of turbulent flows is a growing field with major interest, such as...
Active drag reduction of an Ahmed body with a slant angle of 25 degrees, corresponding to the high-d...
Three different activation strategies for active flow control around an Ahmed body are investigated ...
The work described in this thesis is a computational investigation applying linear feedback control...
The present work aims to pre-evaluate flow control parameters to reduce the drag in a real vehicle. ...
This work of thesis is part of a wider research project with the aim of developing an aerodynamic ac...
AbstractThe objective of this study is to compare steady blowing and synthetic jets for drag reducti...
International audienceA control device is generally designed to operate a system in a desired manner...
This study evaluates the drag reduction strategy of suction and blowing on idealize automotive vehic...
With constantly increasing environmental constraints, the need for ever more efficient aeronautical ...
This thesis covers topics that span bluff-body aerodynamics, hybrid RANS-LES CFD methods, flow contr...
International audienceWe consider the first closed-loop separation control experiment on an Ahmed bo...
This research investigates the turbulent flow past a blunt bluff body. The square-back Ahmed body i...
The wakes of bluff bodies, such as automotive vehicles, exhibit complex behaviour due to three-dimen...
The paper presents the results of an experimental investigation wherein the bullet form drag force a...
International audienceThe control of turbulent flows is a growing field with major interest, such as...
Active drag reduction of an Ahmed body with a slant angle of 25 degrees, corresponding to the high-d...
Three different activation strategies for active flow control around an Ahmed body are investigated ...
The work described in this thesis is a computational investigation applying linear feedback control...
The present work aims to pre-evaluate flow control parameters to reduce the drag in a real vehicle. ...
This work of thesis is part of a wider research project with the aim of developing an aerodynamic ac...
AbstractThe objective of this study is to compare steady blowing and synthetic jets for drag reducti...
International audienceA control device is generally designed to operate a system in a desired manner...
This study evaluates the drag reduction strategy of suction and blowing on idealize automotive vehic...
With constantly increasing environmental constraints, the need for ever more efficient aeronautical ...
This thesis covers topics that span bluff-body aerodynamics, hybrid RANS-LES CFD methods, flow contr...