A method is described for calculating unsteady transonic flow with viscous interaction by coupling a steady integral boundary-layer code with an unsteady, transonic, inviscid small-disturbance computer code in a quasi-steady fashion. Explicit coupling of the equations together with viscous -inviscid iterations at each time step yield converged solutions with computer times about double those required to obtain inviscid solutions. The accuracy and range of applicability of the method are investigated by applying it to four AGARD standard airfoils. The first-harmonic components of both the unsteady pressure distributions and the lift and moment coefficients have been calculated. Comparisons with inviscid calcualtions and experimental data are...
This study modified the inviscid, small-disturbance, unsteady, transonic code, LTRAN2, to consider t...
Results are presented for computations of unsteady viscous transonic flows past a stationary NACA001...
A finite-difference solution to the Navier-Stokes equations combined with a time-varying grid-genera...
An improved method is presented for coupling a boundary layer code with an unsteady inviscid transon...
Recent experience in calculating unsteady transonic flow by means of viscous-inviscid interactions w...
The viscous effect on aerodynamic performance of an arbitrary airfoil executing low frequency maneuv...
Viscous effects on transonic airfoil stability and response are investigated using an integral bound...
A viscous-inviscid interactive coupling method is used for the computation of unsteady transonic flo...
Results are present here for viscous transonic flow over aerofoils to demontrate the capabilities of...
Modifications of the code LTRAN2, developed by Ballhaus and Goorjian, which account for viscous effe...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
A three-dimensional transonic inviscid code has been modified for the viscous effects. Viscous effec...
Transonic viscous-inviscid interaction is considered using the Euler and inverse compressible turbul...
A full Navier-Stokes solver has been used to model transonic flow over three airfoil sections. The m...
The Reynolds averaged Navier-Stokes equations are solved numerically for a variety of transonic airf...
This study modified the inviscid, small-disturbance, unsteady, transonic code, LTRAN2, to consider t...
Results are presented for computations of unsteady viscous transonic flows past a stationary NACA001...
A finite-difference solution to the Navier-Stokes equations combined with a time-varying grid-genera...
An improved method is presented for coupling a boundary layer code with an unsteady inviscid transon...
Recent experience in calculating unsteady transonic flow by means of viscous-inviscid interactions w...
The viscous effect on aerodynamic performance of an arbitrary airfoil executing low frequency maneuv...
Viscous effects on transonic airfoil stability and response are investigated using an integral bound...
A viscous-inviscid interactive coupling method is used for the computation of unsteady transonic flo...
Results are present here for viscous transonic flow over aerofoils to demontrate the capabilities of...
Modifications of the code LTRAN2, developed by Ballhaus and Goorjian, which account for viscous effe...
The viscous/inviscid interaction over transonic airfoils with and without suction is studied. The st...
A three-dimensional transonic inviscid code has been modified for the viscous effects. Viscous effec...
Transonic viscous-inviscid interaction is considered using the Euler and inverse compressible turbul...
A full Navier-Stokes solver has been used to model transonic flow over three airfoil sections. The m...
The Reynolds averaged Navier-Stokes equations are solved numerically for a variety of transonic airf...
This study modified the inviscid, small-disturbance, unsteady, transonic code, LTRAN2, to consider t...
Results are presented for computations of unsteady viscous transonic flows past a stationary NACA001...
A finite-difference solution to the Navier-Stokes equations combined with a time-varying grid-genera...