Add to ORKGA modification of the viscous-inviscid interaction concept with the employment of coupled vortices around the airfoil wake is introduced for analyzing the airfoil stall. The analyzed flow includes the laminar boundary layers, laminar separation bubble, laminar-turbulent transition zone, turbulent boundary layers, turbulent separation zone, wake, and outer inviscid flow. Integral methods are employed for the boundary layers. The boundaries of separation zones are analyzed as free surfaces, however, their lengths and shapes depend on the Reynolds number. The described modification is validated by a comparison of the numerical results with the previously published experimental data for various airfoils and Reynolds numbers at low Mach numbers....
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
A compressible Navier-Stokes solution procedure is applied to the flow about an isolated airfoil. Tw...
Simulation of separated flow past an airfoil beyond stall, along with the prediction of stall itself...
Summary: This paper presents a method for assessing two-dimensional aerofoil performance charact...
Summary: This paper presents a method for assessing two-dimensional aerofoil performance charact...
A local inviscid-viscous interaction technique was developed for the analysis of low speed airfoil l...
An algorithm for estimating the lift, moment and pressure distribution on arbitary two dimensional ...
The Reynolds averaged Navier-Stokes equations are solved numerically for a variety of transonic airf...
The article of record as published may be found at https://doi.org/The article of record as publishe...
A method for analyzing unsteady airfoil stall was refined by including nonlinear effects in the repr...
An algorithm for estimating the lift, moment and pressure distribution on arbitary two dimensional ...
A time-accurate solution method for the coupled potential flow and integral boundary-layer equations...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
The present work was mainly concerned with the fundamental processes that occur on a two-dimensional...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
A compressible Navier-Stokes solution procedure is applied to the flow about an isolated airfoil. Tw...
Simulation of separated flow past an airfoil beyond stall, along with the prediction of stall itself...
Summary: This paper presents a method for assessing two-dimensional aerofoil performance charact...
Summary: This paper presents a method for assessing two-dimensional aerofoil performance charact...
A local inviscid-viscous interaction technique was developed for the analysis of low speed airfoil l...
An algorithm for estimating the lift, moment and pressure distribution on arbitary two dimensional ...
The Reynolds averaged Navier-Stokes equations are solved numerically for a variety of transonic airf...
The article of record as published may be found at https://doi.org/The article of record as publishe...
A method for analyzing unsteady airfoil stall was refined by including nonlinear effects in the repr...
An algorithm for estimating the lift, moment and pressure distribution on arbitary two dimensional ...
A time-accurate solution method for the coupled potential flow and integral boundary-layer equations...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
The present work was mainly concerned with the fundamental processes that occur on a two-dimensional...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
A compressible Navier-Stokes solution procedure is applied to the flow about an isolated airfoil. Tw...
Simulation of separated flow past an airfoil beyond stall, along with the prediction of stall itself...