Investigation of thermal performance in dual‐fuel units

Abstract: Numerical studies were carried out to investigate the thermal performance of the muzzle flow with strong shock discontinuities and gas-gas heat transfer mechanism in the base bleed unit (BBU) of an aerodynamic vehicle under the combined effects of muzzle flow and depressurization process. The process was modeled using the Navier-Stokes equations with chemical kinetics and interior ballistic equations. The results show that the muzzle phenomena with large temperature gradients and different wave structures appe… Show more

“…In addition, the combustion mechanism of chemical reaction is gradually applied to the study of the muzzle fow feld. Sun et al [8][9][10][11][12][13] studied the shock wave and jet and secondary combustion processes in the muzzle fow feld by numerical simulation using detailed chemical reaction dynamics models. In the visualization of the muzzle fow feld, Moumen [14,15] combined Schlieren technology with high-speed cameras to realize quantitative visualization of trafc, and the results showed that this technique could visualize the density fow feld.…”

Numerical Investigation on the Flow Field of Muzzle Decompression Device for the Barrel Recoil Gun

“…In addition, the combustion mechanism of chemical reaction is gradually applied to the study of the muzzle fow feld. Sun et al [8][9][10][11][12][13] studied the shock wave and jet and secondary combustion processes in the muzzle fow feld by numerical simulation using detailed chemical reaction dynamics models. In the visualization of the muzzle fow feld, Moumen [14,15] combined Schlieren technology with high-speed cameras to realize quantitative visualization of trafc, and the results showed that this technique could visualize the density fow feld.…”

Numerical Investigation on the Flow Field of Muzzle Decompression Device for the Barrel Recoil Gun

Muzzle flow field characteristics of underwater sealed launch system under different projectile shapes