A development was the time linearization of the density function. This linearization reduces the solution process from solving just a single equation. Two sample cases were computed. First, a one dimensional traveling shock wave was computed and compared with the analytic solution. Second, a two dimensional case was calculated for a flow field which resulted from a thickening and subsequently, thinning airfoil. The resulting flow field, which included a traveling shock wave, was compared to the flow field obtained from the low frequency, small disturbance, transonic equation
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...
Research in the area of computational, unsteady transonic flows about airfoils and wings, including ...
A method is described for calculating unsteady transonic flow with viscous interaction by coupling a...
An implicit finite difference procedure is developed to solve the unsteady full potential equation i...
Separating the velocity potential into steady and unsteady parts and linearizing the resulting unste...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
A finite difference technique is used to solve the transonic small disturbance flow equation making ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
An entropy-correction method for the unsteady full potential equation is presented. The unsteady pot...
First-and second-order numerical procedures are presented for calculating two-dimensional transonic ...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
A new differencing scheme for the conservative full potential equation which effectively simulates r...
Various problems which are confronted in the development of an unsteady finite difference potential ...
Implicit approximate factorization techniques (AF) were investigated for the solution of matrix equa...
A steady transonic flow over an airfoil is computed by solving the full potential equation discretiz...
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...
Research in the area of computational, unsteady transonic flows about airfoils and wings, including ...
A method is described for calculating unsteady transonic flow with viscous interaction by coupling a...
An implicit finite difference procedure is developed to solve the unsteady full potential equation i...
Separating the velocity potential into steady and unsteady parts and linearizing the resulting unste...
Aerodynamic methods for aeroelastic analysis are applied to various flow problems. These methods inc...
A finite difference technique is used to solve the transonic small disturbance flow equation making ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
An entropy-correction method for the unsteady full potential equation is presented. The unsteady pot...
First-and second-order numerical procedures are presented for calculating two-dimensional transonic ...
Research in the area of computational unsteady transonic flows about airfoils and wings, including a...
A new differencing scheme for the conservative full potential equation which effectively simulates r...
Various problems which are confronted in the development of an unsteady finite difference potential ...
Implicit approximate factorization techniques (AF) were investigated for the solution of matrix equa...
A steady transonic flow over an airfoil is computed by solving the full potential equation discretiz...
A new streamwise upwind algorithm was derived to compute unsteady flow fields with the use of a movi...
Research in the area of computational, unsteady transonic flows about airfoils and wings, including ...
A method is described for calculating unsteady transonic flow with viscous interaction by coupling a...