Experimental Study on Bubble Movement Characteristics during Underwater Pyrotechnic Combustion

High-speed photography was used to study bubble movement characteristics during underwater pyrotechnic combustion. The results show that bubble behaviors include bubble formation at the nozzle, departure from the nozzle, bubble coalescence, and bubble breakup. Compared with cavitation bubbles and fluidization bubbles, the nozzle bubbles formed during underwater pyrotechnic combustion feature larger diameters, up to centimeters, and darker, and more irregular shapes. During large bubble coalescence, two bubbles approach each other, generate a channel for transfer of mass and heat, and finally coalesce. The bubbles contain high-temperature gases and solid residues generated during pyrotechnic combustion, which lead to non-uniform forces on the bubble surface and make the bubbles more prone to breakup. Because of the high-temperature solid grains, the surrounding liquid vaporizes to form bubbles.