Validation of chemistry models employed in a particle simulation methodThe chemistry models employed in a statistical particle simulation method, as implemented in the Intel iPSC/860 multiprocessor computer, are validated and applied. Chemical relaxation of five-species air in these reservoirs involves 34 simultaneous dissociation, recombination, and atomic-exchange reactions. The reaction rates employed in the analytic solutions are obtained from Arrhenius experimental correlations as functions of temperature for adiabatic gas reservoirs in thermal equilibrium. Favorable agreement with the analytic solutions validates the simulation when applied to relaxation of O2 toward equilibrium in reservoirs dominated by dissociation and recombination, respectively, and when applied to relaxation of air in the temperature range 5000 to 30,000 K. A flow of O2 over a circular cylinder at high Mach number is simulated to demonstrate application of the method to multidimensional reactive flows.
Document ID
19910058810
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Haas, Brian L. (Eloret Corp. Palo Alto, CA, United States)
Mcdonald, Jeffrey D. (Eloret Institute Palo Alto, CA, United States)