On the mechanism of break-up of large bubbles in liquids and three-phase fluidised beds

The chvlslon of gas flow between the two phases of a flmdlsed bed of commercial catalyst powder has been determmed from measurements of mterstltlal phase vokdage and bed height over a wide range of gas velocltles Voldage measurements were made by comparing the X-ray absorption of the mterstltial pha

## AbstrW -An experimental study is described of Ihe behaviour of Synclyst particles (do, = 48pm) fluidised by air in a 0.05 m i.d. column; pressures in the range 1-22 bar were used. The expansion of the dense phase during bubbling is compared with maximum bed expansion before bubbling. The data a

Local solid-liquid mass transfer and shear stress in gas-liquid-solid fluidized beds are studied experimentally to clarify the influence of gas flow. The electrochemical method of local mass transfer coefficient measurements was used. The effect of gas velocity on mass transfer is essentially due to

A study is reported on the "bed support experiment" in which measurements of the minimum supporting velocity are performed for a wide range of conditions. Values of the drag coefficient for the particles at the upstream end of a packed bed are then calculated, and the data are seen to be well repres

An expaimental study has been aimed at Linking the extent of axial mixing m gas and liquid phas~ m tall bubble coltmm reactors with the respective bubbling regimes (homogeneous, tr~msition, hctcrogeneous) ¢ncotmtered in such reactors and with correnpondhag macro-scale flow patterns of b~h phases. Th