DOI: 10.1615/TSFP3
LES OF THERMALLY-STRATIFIED LIQUID TURBULENT FLOWS WITH A CHEMICAL REACTION
要約
Two types of reacting liquid turbulence with density
stratifications; a mixing layer and grid-generated turbulence, were numerically investigated using large-eddy simulation (LES). The present LES employed the dynamic SGS models for the SGS Reynolds stress and SGS mass and heat fluxes and our SGS model for the chemical reaction source term (Michioka et al., 2001). The LES based on these SGS models was applied to the same stratified reacting liquid turbulent flows as in our recent experiments (Onishi et al., 2003). To
examine the applicability of the present LES, the predictions of some turbulence statistics were compared with the measurements by Onishi et al. (2003).
The results show that the LES predictions are in good
agreement with the measurements and the present LES
can accurately estimate buoyancy effects on the diffusive-reactive mechanism in thermally-stratified reacting liquid turbulent flows.