The summer assignment to study sheared turbulent flow was divided into three phases which were: (1) literature survey, (2) computational familiarization, and (3) pilot computational studies. The governing equations of fluid dynamics or Navier-Stokes equations describe the velocity, pressure, and density as functions of position and time. In principle, when combined with conservation equations for mass, energy, and thermodynamic state of the fluid a determinate system could be obtained. In practice the Navier-Stokes equations have not been solved due to the nonlinear nature and complexity of these equations. Consequently, the importance of experiments in gaining insight for understanding the physics of the problem has been an ongoing process...
A flow simulation Methodology (FSM) is presented for computing the time-dependent behavior of comple...
Developments in three dimensional, time dependent numerical simulation of turbulent flows bounded by...
The accuracy to which a turbulent boundary layer or wake can be predicted numerically depends on the...
Direct simulations consist in solving the full Navier-Stokes equations, without any turbulence model...
The advent of direct numerical simulations of turbulence has opened avenues for research on turbulen...
This contribution is concerned with the simulation of turbulent shear flows. First, direct numerical...
Numerical simulation of turbulent flows is discussed. Computational requirements for the direct simu...
Studies are described in which the effort was essentially directed to classes of problems where the ...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
To understand and model the turbulent behavior of flowing fluids is one of the most fascinating, int...
Turbulent Channel flow will be simulated directly by solving the Navier-Stokes equations by a finite...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Critical to the advancement of computational aerodynamics capability is the ability to simulate flow...
The direct simulation methods developed by Orszag and Patternson (1972) for isotropic turbulence wer...
A numerically efficient configuration to simulate turbulent flows is to use triply periodic domains,...
A flow simulation Methodology (FSM) is presented for computing the time-dependent behavior of comple...
Developments in three dimensional, time dependent numerical simulation of turbulent flows bounded by...
The accuracy to which a turbulent boundary layer or wake can be predicted numerically depends on the...
Direct simulations consist in solving the full Navier-Stokes equations, without any turbulence model...
The advent of direct numerical simulations of turbulence has opened avenues for research on turbulen...
This contribution is concerned with the simulation of turbulent shear flows. First, direct numerical...
Numerical simulation of turbulent flows is discussed. Computational requirements for the direct simu...
Studies are described in which the effort was essentially directed to classes of problems where the ...
In recent years codes that use the Navier-Stokes equations to compute aerodynamic flows have evolved...
To understand and model the turbulent behavior of flowing fluids is one of the most fascinating, int...
Turbulent Channel flow will be simulated directly by solving the Navier-Stokes equations by a finite...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Critical to the advancement of computational aerodynamics capability is the ability to simulate flow...
The direct simulation methods developed by Orszag and Patternson (1972) for isotropic turbulence wer...
A numerically efficient configuration to simulate turbulent flows is to use triply periodic domains,...
A flow simulation Methodology (FSM) is presented for computing the time-dependent behavior of comple...
Developments in three dimensional, time dependent numerical simulation of turbulent flows bounded by...
The accuracy to which a turbulent boundary layer or wake can be predicted numerically depends on the...