The behaviors of particles in a gas-solid contactor with inclined baffle pl
ates that form a zig-zag path are experimentally studied. To improve the ga
s-solid contact efficiency, a table discharger is installed at the bottom o
f the column. In this contactor solid particles slide down along the baffle
plates and are fluidized at the openings between the wall and the edge of
the baffle plates by the upflowing gas. This structure, called a "moving-fl
uidized bed", has some of the advantages of both moving and fluidized beds.
The feed rate of solid particles, the open spacing fraction and the inclina
tion angle of the particle reflector were chosen as parameters for experime
ntal conditions. The formation of bubbles was observed between the fluidize
d bed and moving bed regions and the bubble diameters were measured by usin
g fiber optic probes, particle velocities in the moving bed region along th
e baffle plate were measured as a measure of the circulating motion of the
particles in the moving and fluidized bed region. It is concluded that the
present apparatus performs at a high efficiency of gas-solid contact under
dense flow conditions, as compared with a gas-solid contactor which was use
d in our earlier study.