Solutions of the twin plane jets HF chemical laser flow based on a turbulent kinetic theory, due to a
modified Green's function method, are presented. The calculated results of probability density function
(PDF) of various chemical species in velocity space, and mass fraction concentration distributions of various
reactants and products in the flow field, are revealed and discussed in this analysis. The transport phenomena
of different pumping rate, collisional deactivation rate, and radiative deactivation rate in the interaction
between the twin plane jets HF chemical laser show that the properties of species mass fraction
concentrations, collisional reaction rate, and radiative incident intensity are the dominant factors. The
present study provides the fundamentals for theoretical understanding of twin plane jets HF chemical laser
and further application to multiple-jet HF chemical laser analysis.
Relation:
International Journal of Numerical Methods for Heat and Fluid Flow 4, pp.513-526
