A leading-edge suction parameter (LESP) that is derived from potential flow theory as a measure of suction at the airfoil leading edge is used to study initiation of leading-edge vortex (LEV) formation in this article. The LESP hypothesis is presented, which states that LEV formation in unsteady flows for specified airfoil shape and Reynolds number occurs at a critical constant value of LESP, regardless of motion kinematics. This hypothesis is tested and validated against a large set of data from CFD and experimental studies of flows with LEV formation. The hypothesis is seen to hold except in cases with slow-rate kinematics which evince significant trailing-edge separation (which refers here to separation leading to reversed flow on the af...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
This article presents a numerical investigation of the effects of leading-edge protuberances on airf...
Inspired by the efficiency of nature’s flyers, there is a growing interest amongst engineers and sci...
Leading edge vortex (LEV) formation, which is initiated by separation at the leading edge, depends o...
A criterion for predicting flow separation and reattachment at the leading-edge using a Leading-Edge...
A theoretical low-order model to predict the forces and flow evolution on airfoils and flat plates u...
Unsteady aerofoil flows are often characterized by leading-edge vortex (LEV) shedding. While experi...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
This study focuses on the formation and detachment of a leading edge vortex (LEV) appearing on an ai...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
We propose here a method to experimentally quantify unsteady leading-edge flow separation on aerofoi...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
The role of leading-edge vortex (LEV) in enhancing aerodynamic lift during flapping flight is discus...
The vortex dynamics of leading-edge vortices on plunging high-Aspect-ratio (ARÂ =Â 10) wings and air...
A discrete-vortex method for unsteady airfoil flows with intermittent leading-edge vortex (LEV) shed...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
This article presents a numerical investigation of the effects of leading-edge protuberances on airf...
Inspired by the efficiency of nature’s flyers, there is a growing interest amongst engineers and sci...
Leading edge vortex (LEV) formation, which is initiated by separation at the leading edge, depends o...
A criterion for predicting flow separation and reattachment at the leading-edge using a Leading-Edge...
A theoretical low-order model to predict the forces and flow evolution on airfoils and flat plates u...
Unsteady aerofoil flows are often characterized by leading-edge vortex (LEV) shedding. While experi...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
This study focuses on the formation and detachment of a leading edge vortex (LEV) appearing on an ai...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
We propose here a method to experimentally quantify unsteady leading-edge flow separation on aerofoi...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
The role of leading-edge vortex (LEV) in enhancing aerodynamic lift during flapping flight is discus...
The vortex dynamics of leading-edge vortices on plunging high-Aspect-ratio (ARÂ =Â 10) wings and air...
A discrete-vortex method for unsteady airfoil flows with intermittent leading-edge vortex (LEV) shed...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
This article presents a numerical investigation of the effects of leading-edge protuberances on airf...
Inspired by the efficiency of nature’s flyers, there is a growing interest amongst engineers and sci...