Computation of two-dimensional, viscous nozzle flow
The calculation of viscous nozzle flows can be accomplished by either solving the inviscid-core and viscous-boundary-layer equations separately or by solving the viscous equations for the entire flowfield. In the inviscid-core, boundary-layer approach, the assumption is made that the boundary layer is thin when compared to the nozzle diameter. However, for Reynolds numbers on the order of 10/sup 3/ based on the throat diameter, this assumption is questionable. On the other hand, while the viscous equation approach is physically desirable, the computations tend to be rather lengthy. Therefore, the object of this research was to modify an efficient inviscid code, to solve the viscous equations. This new code, called VNAP (Viscous Nozzle Analysis Program), is then used to calculate the flow in a chemical laser nozzle. This numerical solution is compared with both the inviscid-core, boundary-layer solution and experimental data.
- Research Organization:
- Los Alamos Scientific Lab., NM
- OSTI ID:
- 7343265
- Journal Information:
- AIAA (Am. Inst. Aeronaut. Astronaut.) J.; (United States), Journal Name: AIAA (Am. Inst. Aeronaut. Astronaut.) J.; (United States) Vol. 14:3; ISSN AIAJA
- Country of Publication:
- United States
- Language:
- English
Similar Records
VNAP: a computer program for computation of two-dimensional, time-dependent compressible, viscous, internal flow
Inviscid solutions of the flowfield in an internal combustion engine