Add to ORKGA quantitative comparison between the Euler and full potential formulations with respect to speed and accuracy is presented. The robustness of the codes used is tested by a number of transonic airfoil cases. The computed results are from four transonic airfoil computer codes. The full potential codes use fully implicit iteration algorithms. The first Euler code uses a fully implicit ADI iteration scheme. The second Euler code uses an explicit Runge Kutta time stepping algorithm which is enhanced by a multigrid convergence acceleration scheme. Quantitative comparisons are made using various plots of lift coefficient versus the average mesh spacing along the airfoil. Besides yielding an asymptotic limit to the lift coefficient, these results ...
Five viscous transonic airfoil cases were computed by two significantly different computational flui...
A new differencing scheme for the conservative full potential equation which effectively simulates r...
The widely transonic swept-wing code, FL022, was found to have an error in the transformed flow equa...
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
This article investigates what performance can be achieved when executing an aerodynamic code on a q...
An implicit, two factor, split flux, finite volume Euler equations solution algorithms is applied to...
The operation of the TAIR (Transonic AIRfoil) computer code, which uses a fast, fully implicit algor...
The development and application of transonic small disturbance codes for computing two dimensional f...
This paper presents the results of unsteady transonic flow calculation methods developed at the DLR ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
Personal computers of the past were limited to running computational fluid dynamics codes in serial ...
The inviscid flow past a BGK-1, NACA0012 amp; NACA0006 airfoils at a few subsonc Mach numbers amp; i...
Comparisons of calculated and experimental transonic unsteady pressures and airloads for four of the...
An entropy-correction method for the unsteady full potential equation is presented. The unsteady pot...
Two codes which solve the 3-D Thin Layer Navier-Stokes (TLNS) equations are used to compute the stea...
Five viscous transonic airfoil cases were computed by two significantly different computational flui...
A new differencing scheme for the conservative full potential equation which effectively simulates r...
The widely transonic swept-wing code, FL022, was found to have an error in the transformed flow equa...
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
This article investigates what performance can be achieved when executing an aerodynamic code on a q...
An implicit, two factor, split flux, finite volume Euler equations solution algorithms is applied to...
The operation of the TAIR (Transonic AIRfoil) computer code, which uses a fast, fully implicit algor...
The development and application of transonic small disturbance codes for computing two dimensional f...
This paper presents the results of unsteady transonic flow calculation methods developed at the DLR ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
Personal computers of the past were limited to running computational fluid dynamics codes in serial ...
The inviscid flow past a BGK-1, NACA0012 amp; NACA0006 airfoils at a few subsonc Mach numbers amp; i...
Comparisons of calculated and experimental transonic unsteady pressures and airloads for four of the...
An entropy-correction method for the unsteady full potential equation is presented. The unsteady pot...
Two codes which solve the 3-D Thin Layer Navier-Stokes (TLNS) equations are used to compute the stea...
Five viscous transonic airfoil cases were computed by two significantly different computational flui...
A new differencing scheme for the conservative full potential equation which effectively simulates r...
The widely transonic swept-wing code, FL022, was found to have an error in the transformed flow equa...