MECHANISMS OF RECIRCULATING LIQUID FLOW ON DISTILLATION SIEVE PLATES

This paper describes an experimental investigation into the phenomenon of flow recirculation on distillation sieve trays. A novel dye inject ion technique has been applied to a 1.81 m air-water simulation column and has yielded new information concerning the nature of the boundary layer of gas-liquid biphase as it detaches from the column wall. The study has shown that recirculation is strongly influenced by inlet con ditions. A critical factor is the underflow clearance between the inle t downcomer apron and the tray floor. As this clearance is increased, the size of the recirculating zones passes through a minimum, indicati ng the existence of two different mechanisms responsible for the nonun iform flow patterns. A significant implication of this work is that tr ay designers may minimize the impact of recirculation on mass transfer efficiency by appropriate choice of underflow clearance.