Add to ORKGWhen an airfoil is pitched up rapidly, a dynamic stall vortex forms at the leading edge and produces high transient lift before shedding and stall occur. The aim of this work is to develop low-dimensional models of the dynamics of these leading-edge vortices, which may be used to develop feedback laws to stabilize these vortices using closed-loop control, and maintain high lift. We first perform a numerical study of the two-dimensional incompressible flow past an airfoil at varying angles of attack, finding steady states using a timestepper-based Newton/GMRES scheme, and dominant eigenvectors using ARPACK. These steady states may be either stable or unstable; we develop models linearized about the stable steady states using a method called ...
Dynamic stall is described by Mac Croskey et al. as a phenomenon that occurs on airfoils subjected t...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
When an airfoil is pitched up rapidly, a dynamic stall vortex forms at the leading edge and produces...
We study model-based feedback control of the low-Reynolds-number flow over a flat plate at large ang...
Open- and closed-loop control of vortex shedding in two-dimensional flow over a flat plate at high a...
This thesis examines flow control and the potentially favorable effects of feedback, associated with...
This study was conducted to provide new knowledge and tools for investigating control of unsteady le...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
As opposed to conventional air vehicles that have fixed wings, small birds and insects are known to ...
The objective of this study is to employ feedback control to maximize time-average lift on a low-asp...
Active flow control is used to modify the lift, drag and pitching moments on a semicircular wing wit...
The present work was mainly concerned with the fundamental processes that occur on a two-dimensional...
Optimal control theory is combined with the numerical simulation of an incompressible viscous flow t...
The present study is focused on dynamic stall behavior of a pitching airfoil. The deep stall regime...
Dynamic stall is described by Mac Croskey et al. as a phenomenon that occurs on airfoils subjected t...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
When an airfoil is pitched up rapidly, a dynamic stall vortex forms at the leading edge and produces...
We study model-based feedback control of the low-Reynolds-number flow over a flat plate at large ang...
Open- and closed-loop control of vortex shedding in two-dimensional flow over a flat plate at high a...
This thesis examines flow control and the potentially favorable effects of feedback, associated with...
This study was conducted to provide new knowledge and tools for investigating control of unsteady le...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
As opposed to conventional air vehicles that have fixed wings, small birds and insects are known to ...
The objective of this study is to employ feedback control to maximize time-average lift on a low-asp...
Active flow control is used to modify the lift, drag and pitching moments on a semicircular wing wit...
The present work was mainly concerned with the fundamental processes that occur on a two-dimensional...
Optimal control theory is combined with the numerical simulation of an incompressible viscous flow t...
The present study is focused on dynamic stall behavior of a pitching airfoil. The deep stall regime...
Dynamic stall is described by Mac Croskey et al. as a phenomenon that occurs on airfoils subjected t...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...