Add to ORKGA set of higher-order boundary-layer equations is derived valid for three-dimensional compressible flows. The equations are written in a generalized curvilinear coordinate system, in which the surface coordinates are nonorthogonal; the third axis is restricted to be normal to the surface. Also, higher-order viscous terms which are retained depend on the surface curvature of the body. Thus, the equations are suitable for the calculation of the boundary layer about arbitrary vehicles. As a starting point, the Navier-Stokes equations are derived in a tensorian notation. Then by means of an order-of-magnitude analysis, the boundary-layer equations are developed. To provide an interface between the analytical partial differentiation notation and...
Many fluid flow applications that exist in engineering practice can be solved by means of numerical ...
There are many fluid flow problems involving geometries for which a nonorthogonal curvilinear coordi...
A three dimensional analysis for fully viscous, subsonic, compressible flow is evaluated. An approxi...
This is a working paper in which a formulation is given for solving the boundary-layer equations in ...
A very general method for calculating compressible three-dimensional laminar and turbulent boundary ...
A three-dimensional boundary-layer code was developed for particular application to realistic hypers...
The basic governing equations for the second-order three-dimensional hypersonic thermal and chemical...
A numerical method for solving the three-dimensional boundary layer equations for bodies of arbitrar...
The method described utilizes a nonorthogonal coordinate system for boundary-layer calculations. It ...
The application of stability theory in Laminar Flow Control (LFC) research requires that density and...
An accurate solution of the three-dimensional boundary layer equations over general configurations s...
A compressible linear stability theory is presented for nonparallel three-dimensional boundary-layer...
The master's thesis deals with Navier-Stokes equations in curvilinear coordinates and their solution...
Two dimensional equations of steady motion for third order fluids are expressed in a special coordin...
Numerical methods for the compressible boundary-layer equations are facilitated by transformation fr...
Many fluid flow applications that exist in engineering practice can be solved by means of numerical ...
There are many fluid flow problems involving geometries for which a nonorthogonal curvilinear coordi...
A three dimensional analysis for fully viscous, subsonic, compressible flow is evaluated. An approxi...
This is a working paper in which a formulation is given for solving the boundary-layer equations in ...
A very general method for calculating compressible three-dimensional laminar and turbulent boundary ...
A three-dimensional boundary-layer code was developed for particular application to realistic hypers...
The basic governing equations for the second-order three-dimensional hypersonic thermal and chemical...
A numerical method for solving the three-dimensional boundary layer equations for bodies of arbitrar...
The method described utilizes a nonorthogonal coordinate system for boundary-layer calculations. It ...
The application of stability theory in Laminar Flow Control (LFC) research requires that density and...
An accurate solution of the three-dimensional boundary layer equations over general configurations s...
A compressible linear stability theory is presented for nonparallel three-dimensional boundary-layer...
The master's thesis deals with Navier-Stokes equations in curvilinear coordinates and their solution...
Two dimensional equations of steady motion for third order fluids are expressed in a special coordin...
Numerical methods for the compressible boundary-layer equations are facilitated by transformation fr...
Many fluid flow applications that exist in engineering practice can be solved by means of numerical ...
There are many fluid flow problems involving geometries for which a nonorthogonal curvilinear coordi...
A three dimensional analysis for fully viscous, subsonic, compressible flow is evaluated. An approxi...
