Assessment of three numerical methods for the computation of a low-density plume flow
Abstract
Results from three numerical methods including one based on the Navier-Stokes equations, one based on kinetic theory using the DSMC method, and one based on the Boltzmann equation with a Krook-type collision term are compared to each other and to experimental data for a model problem of heated nitrogen flow in a conical nozzle expanding into a vacuum. The problem simulates flow in a resistojet, a low-thrust, electrothermal rocket. The continuum method is applied to both the internal flow and near-field plume. The DSMC and Boltzmann methods are applied primarily to the plume. Experimental measurements of Pitot pressure and flow angle, taken with an apparatus that duplicates the model nozzle flow, are used in the comparisons.
- Publication:
-
Joint Propulsion Conference and Exhibit
- Pub Date:
- June 1993
- Bibcode:
- 1993jpmc.confRR...P
- Keywords:
-
- Computational Fluid Dynamics;
- Conical Nozzles;
- Low Density Flow;
- Navier-Stokes Equation;
- Nozzle Flow;
- Plumes;
- Gas Expansion;
- Gas Temperature;
- Nitrogen;
- Spacecraft Propulsion and Power