Add to ORKGA numerical technique to solve the Euler equations for steady, one dimensional flows is presented. The technique is essentially implicit, but is structured as a sequence of explicit solutions for each Riemann variable separately. Each solution is obtained by integrating in the direction prescribed by the propagation of the Riemann variables. The technique is second-order accurate. It requires very few steps for convergence, and each step requires a minimal number of operations. Therefore, it is three orders of magnitude more efficient than a standard time-dependent technique. The technique works very well for transonic flows and provides shock fitting with errors as small as 0.001. Results are presented for subsonic problems. Errors are eva...
The steady state Euler and Navier-Stokes equations are considered for both compressible and incompre...
A fast numerical solver of the Euler equations is presented. The method is based on the Lambda formu...
The I-D, quasi I-D and 2-D Euler solvers based on the method of space-time conservation element and ...
An efficient numerical procedure for solving a set of nonlinear partial differential equations is gi...
A numerical procedure for the relaxation solution of the full steady Euler equations is described. B...
grantor: University of TorontoA numerical analysis is presented in this study for solving ...
grantor: University of TorontoA numerical analysis is presented in this study for solving ...
In this thesis we study two steps in the acceleration of Euler computations to steady solutions: (1)...
A new technique is described for solving supersonic fluid dynamics problems containing multiple regi...
In this thesis we study two steps in the acceleration of Euler computations to steady solutions: (1)...
A multi-stage Runge-Kutta method is analyzed for solving the Euler equations exterior to an airfoil....
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
This report treats the development of a shock tube solver for the simulation of flows described by ...
An implicit finite difference method is presented for obtaining steady state solutions to the time d...
The steady state Euler and Navier-Stokes equations are considered for both compressible and incompre...
A fast numerical solver of the Euler equations is presented. The method is based on the Lambda formu...
The I-D, quasi I-D and 2-D Euler solvers based on the method of space-time conservation element and ...
An efficient numerical procedure for solving a set of nonlinear partial differential equations is gi...
A numerical procedure for the relaxation solution of the full steady Euler equations is described. B...
grantor: University of TorontoA numerical analysis is presented in this study for solving ...
grantor: University of TorontoA numerical analysis is presented in this study for solving ...
In this thesis we study two steps in the acceleration of Euler computations to steady solutions: (1)...
A new technique is described for solving supersonic fluid dynamics problems containing multiple regi...
In this thesis we study two steps in the acceleration of Euler computations to steady solutions: (1)...
A multi-stage Runge-Kutta method is analyzed for solving the Euler equations exterior to an airfoil....
The 1980s may well be called the Euler era of applied aerodynamics. Computer codes based on discrete...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
This report treats the development of a shock tube solver for the simulation of flows described by ...
An implicit finite difference method is presented for obtaining steady state solutions to the time d...
The steady state Euler and Navier-Stokes equations are considered for both compressible and incompre...
A fast numerical solver of the Euler equations is presented. The method is based on the Lambda formu...
The I-D, quasi I-D and 2-D Euler solvers based on the method of space-time conservation element and ...