Add to ORKGA numerical simulation is presented of an axisymmetric turbulent jet discharging axially from below into a cylindrical tank and directed towards the liquid vapor interface. The liquid vapor interface is assumed to be flat and shear free. The k-epsilon turbulence model is used to calculate the eddy viscosity. The turbulence intensity distribution and the length scale associated with the k-epsilon model are calculated as functions of jet flow rates and systems parameters. Numerical results are compared with appropriate experimental data. The problems associated with the free surface boundary conditions for the turbulent quantities are discussed
IBM 7094 Fortran II program for calculating turbulent boundary layer properties, with hydrogen chemi...
The paper presents a numerical method for the solution of the conservation equations governing stead...
The transonic flutter dip phenomena on thin airfoils, which are employed for propfan blades, is inve...
Numerical solutions of jet-induced mixing in a partially full cryogenic tank are presented. An axisy...
Analysis for the turbulent flow field and the effect of freestream turbulence on the surface heat tr...
The objective is to obtain quantitative information on the turbulent transport of mass, angular mome...
Experimental measurements are reported, on the velocity fields and turbulence parameters on a water ...
A numerical method for the study of steady, transonic, turbulent viscous flow through plane turbine ...
Results of a numerical study using the direct simulation Monte Carlo (DSMC) method are presented for...
Mean velocity and turbulence measurements were conducted on the three dimensional fountain flow fiel...
Ten years ago computer simulations of the flow field around the Space Shuttle Orbiter were limited t...
An experimental investigation of the flowfield in the near-wake of an aspect ratio 4 rectangular win...
Closed-form equations for the lift, drag, and pitching moment coefficients of two dimensional airfoi...
The interaction between a turbulent flow and certain types of structures which respond to its excita...
This report describes the results of a small study program in support of the design studies for NASA...
IBM 7094 Fortran II program for calculating turbulent boundary layer properties, with hydrogen chemi...
The paper presents a numerical method for the solution of the conservation equations governing stead...
The transonic flutter dip phenomena on thin airfoils, which are employed for propfan blades, is inve...
Numerical solutions of jet-induced mixing in a partially full cryogenic tank are presented. An axisy...
Analysis for the turbulent flow field and the effect of freestream turbulence on the surface heat tr...
The objective is to obtain quantitative information on the turbulent transport of mass, angular mome...
Experimental measurements are reported, on the velocity fields and turbulence parameters on a water ...
A numerical method for the study of steady, transonic, turbulent viscous flow through plane turbine ...
Results of a numerical study using the direct simulation Monte Carlo (DSMC) method are presented for...
Mean velocity and turbulence measurements were conducted on the three dimensional fountain flow fiel...
Ten years ago computer simulations of the flow field around the Space Shuttle Orbiter were limited t...
An experimental investigation of the flowfield in the near-wake of an aspect ratio 4 rectangular win...
Closed-form equations for the lift, drag, and pitching moment coefficients of two dimensional airfoi...
The interaction between a turbulent flow and certain types of structures which respond to its excita...
This report describes the results of a small study program in support of the design studies for NASA...
IBM 7094 Fortran II program for calculating turbulent boundary layer properties, with hydrogen chemi...
The paper presents a numerical method for the solution of the conservation equations governing stead...
The transonic flutter dip phenomena on thin airfoils, which are employed for propfan blades, is inve...