Unsteady aerofoil flows are often characterized by leading-edge vortex (LEV) shedding. While experiments and high-order computations have contributed to our understanding of these flows, fast low-order methods are needed for engineering tasks. Classical unsteady aerofoil theories are limited to small amplitudes and attached leading-edge flows. Discrete-vortex methods that model vortex shedding from leading edges assume continuous shedding, valid only for sharp leading edges, or shedding governed by ad-hoc criteria such as a critical angle of attack, valid only for a restricted set of kinematics. We present a criterion for intermittent vortex shedding from rounded leading edges that is governed by a maximum allowable leading-edge suction. W...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
A surface shedding discrete vortex method has been developed for stimulating incompressible flows ar...
Although experiments and CFD are very powerful tools in analyzing a niche of fluid dynamics problems...
Unsteady aerofoil flows are often characterized by leading-edge vortex (LEV) shedding. While experi...
A discrete-vortex method for unsteady airfoil flows with intermittent leading-edge vortex (LEV) shed...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
A theoretical low-order model to predict the forces and flow evolution on airfoils and flat plates u...
Perching and hovering are two bio-inspired flight maneuvers that have relevance in engineering, espe...
Leading edge vortex (LEV) formation, which is initiated by separation at the leading edge, depends o...
Discrete-vortex methods are a class of low-order methods widely used to study unsteady aerodynamic p...
A leading-edge suction parameter (LESP) that is derived from potential flow theory as a measure of s...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
A criterion for predicting flow separation and reattachment at the leading-edge using a Leading-Edge...
International audienceThe aeroelastic behavior of an airfoil results in a complex coupling between t...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
A surface shedding discrete vortex method has been developed for stimulating incompressible flows ar...
Although experiments and CFD are very powerful tools in analyzing a niche of fluid dynamics problems...
Unsteady aerofoil flows are often characterized by leading-edge vortex (LEV) shedding. While experi...
A discrete-vortex method for unsteady airfoil flows with intermittent leading-edge vortex (LEV) shed...
In previous research, Ramesh et al (JFM,2014) developed a low-order discrete vortex method for model...
A theoretical low-order model to predict the forces and flow evolution on airfoils and flat plates u...
Perching and hovering are two bio-inspired flight maneuvers that have relevance in engineering, espe...
Leading edge vortex (LEV) formation, which is initiated by separation at the leading edge, depends o...
Discrete-vortex methods are a class of low-order methods widely used to study unsteady aerodynamic p...
A leading-edge suction parameter (LESP) that is derived from potential flow theory as a measure of s...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
A criterion for predicting flow separation and reattachment at the leading-edge using a Leading-Edge...
International audienceThe aeroelastic behavior of an airfoil results in a complex coupling between t...
The unsteady velocity field around a pitching and plunging airfoil has been investigated whereby two...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
A surface shedding discrete vortex method has been developed for stimulating incompressible flows ar...
Although experiments and CFD are very powerful tools in analyzing a niche of fluid dynamics problems...