Add to ORKGA time-accurate approximate-factorization (AF) algorithm is described for solution of the three-dimensional unsteady transonic small-disturbance equation. The AF algorithm consists of a time-linearization procedure coupled with a subiteration technique. The algorithm is the basis for the Computational Aeroelasticity Program-Transonic Small Disturbance (CAP-TSD) computer code, which was developed for the analysis of unsteady aerodynamics and aeroelasticity of realistic aircraft configurations. The paper describes details on the governing flow equations and boundary conditions, with an emphasis on documenting the finite-difference formulas of the AF algorithm
Studies on applications of the finite element approach to transonic flow calculations are reported. ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
Calculation of unsteady flow phenomena requires careful attention to the numerical treatment of the ...
A time accurate approximate factorization (AF) algorithm is formulated for solution of the three dim...
An unsteady potential flow analysis, which accounts for the effects of blade geometry and steady tur...
A simple, airborne, flight-management descent algorithm was developed and programmed into a small pr...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
The design and usage of a pilot program for calculating the pressure distributions over harmonically...
A transonic unsteady aerodynamic and aeroelasticity code CAP-TSD (Computational Aeroelasticity Progr...
A class of explicit multistage time-stepping schemes with centered spatial differencing and multigri...
A general theory of finite state modeling of aerodynamic loads on thin airfoils and lifting surfaces...
The development, use and operation of the XTRAN2L program that solves the two dimensional unsteady t...
The NCOREL computer code was established to compute supersonic flow fields of wings and bodies. The ...
A numerical algorithm and computer program are presented for solving the laminar, transitional, or t...
A computational analysis was performed on the steady, turbulent aerodynamic flowfields associated wi...
Studies on applications of the finite element approach to transonic flow calculations are reported. ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
Calculation of unsteady flow phenomena requires careful attention to the numerical treatment of the ...
A time accurate approximate factorization (AF) algorithm is formulated for solution of the three dim...
An unsteady potential flow analysis, which accounts for the effects of blade geometry and steady tur...
A simple, airborne, flight-management descent algorithm was developed and programmed into a small pr...
The development of a new transonic code to predict unsteady flows about realistic aircraft configura...
The design and usage of a pilot program for calculating the pressure distributions over harmonically...
A transonic unsteady aerodynamic and aeroelasticity code CAP-TSD (Computational Aeroelasticity Progr...
A class of explicit multistage time-stepping schemes with centered spatial differencing and multigri...
A general theory of finite state modeling of aerodynamic loads on thin airfoils and lifting surfaces...
The development, use and operation of the XTRAN2L program that solves the two dimensional unsteady t...
The NCOREL computer code was established to compute supersonic flow fields of wings and bodies. The ...
A numerical algorithm and computer program are presented for solving the laminar, transitional, or t...
A computational analysis was performed on the steady, turbulent aerodynamic flowfields associated wi...
Studies on applications of the finite element approach to transonic flow calculations are reported. ...
Numerical techniques that improve the accuracy and stability of algorithms for the small disturbance...
Calculation of unsteady flow phenomena requires careful attention to the numerical treatment of the ...