Add to ORKGA conservative finite-volume difference scheme is developed for the potential equation to solve transonic flow about airfoils and bodies in an arbitrarily shaped channel. The scheme employs a mesh which is a nearly conformal O mesh about the airfoil and nearly orthogonal at the channel walls. The mesh extends to infinity upstream and downstream, where the mapping is singular. Special procedures are required to treat the singularities at infinity, including computation of the metrics near those points. Channels with exit areas different from inlet areas are solved; a body with a sting mount is an example of such a case
The feasibility of calculating steady mean flow solutions for nonlinear transonic flow over finite w...
The multiphase effort in the development of tools for the analysis and design of two-element airfoil...
summary:Using new results based on a convenient entropy condition, two types of algorithms for compu...
The so-called H-type mesh is used in a finite-element (or finite-volume) calculation of the potentia...
A numerical procedure is presented for the solution of the transonic potential flow equation around ...
A new approach is developed for analysis and design of transonic airfoils. A set of full potential e...
A finite element method for the computation of the transonic flow with shocks past airfoils is prese...
This paper describes the implementation of optimization techniques based on control theory for airfo...
Analytical and empirical studies of a finite difference method for the solution of the transonic flo...
This dissertation studies steady two-dimensional transonic flows past symmetric airfoils. The flow e...
Transonic flow through a cascade was studied by using the full potential equation and the finite vol...
The problem of potential flow around two-dimensional airfoils is solved by using a new singular inte...
A finite difference procedure based upon a system of unsteady equations in proper conservation form ...
Transonic flow is a mixed flow of subsonic and supersonic regions. Because of this mixture, the solu...
Solutions of steady transonic flow past a two-dimensional airfoil are obtained from a singular integ...
The feasibility of calculating steady mean flow solutions for nonlinear transonic flow over finite w...
The multiphase effort in the development of tools for the analysis and design of two-element airfoil...
summary:Using new results based on a convenient entropy condition, two types of algorithms for compu...
The so-called H-type mesh is used in a finite-element (or finite-volume) calculation of the potentia...
A numerical procedure is presented for the solution of the transonic potential flow equation around ...
A new approach is developed for analysis and design of transonic airfoils. A set of full potential e...
A finite element method for the computation of the transonic flow with shocks past airfoils is prese...
This paper describes the implementation of optimization techniques based on control theory for airfo...
Analytical and empirical studies of a finite difference method for the solution of the transonic flo...
This dissertation studies steady two-dimensional transonic flows past symmetric airfoils. The flow e...
Transonic flow through a cascade was studied by using the full potential equation and the finite vol...
The problem of potential flow around two-dimensional airfoils is solved by using a new singular inte...
A finite difference procedure based upon a system of unsteady equations in proper conservation form ...
Transonic flow is a mixed flow of subsonic and supersonic regions. Because of this mixture, the solu...
Solutions of steady transonic flow past a two-dimensional airfoil are obtained from a singular integ...
The feasibility of calculating steady mean flow solutions for nonlinear transonic flow over finite w...
The multiphase effort in the development of tools for the analysis and design of two-element airfoil...
summary:Using new results based on a convenient entropy condition, two types of algorithms for compu...