Flow characteristics of gas-liquid two phase plunging jet absorber - Gas holdup and bubble penetration depth

A gas-liquid two phase plunging jet is formed through a gas sucking type multi-jet ejector nozzle. In this study, the effects of various conditions in the multi-jet ejector nozzle, the column diameter, and the liquid jet length on penetration depth of air bubbles l(B) and gas holdup h(G) in a gas-liquid two phase plunging jet absorber were studied experimentally. Consequently, empirical equations concerning l(B) and h(G) were obtained, respectively. These equations agree with the experimental data with an accuracy of +/-20% for l(B) and +/-25% for h(G).