SU614805A1 - Gas-purifying apparatus - Google Patents

Description

partitions with the lower edges bent in opposite sides immersed in the liquid.

FIG. 1 given the proposed device in longitudinal and 1 section; in fig. 2 shows section A-A in FIG. one.

The device consists of a tank 1, nozzles 2 and 3 of a two-phase flow inlet and a clean gas outlet, a horizontal manifold 4 having longitudinal slits in its lower part, in each of which there is an accelerating device 5. Inside the horizontal collector 4 a horizontal tube 6 is coaxially installed liquids with holes 7.

The booster device 5 has booster tubes 8. The booster inlet tubes are located in nozzle 2, bent c and in opposite directions relative to the horizontal tube 6 and are provided with openings 9 connected to openings 7 of tube 6. The output ends of the accelerating tubes 8 are located in the tank and provided at the point of contact with vertical partitions 10 s having bent to opposite sides with lower edges 11 immersed in a liquid.

The device works as follows.

A two-phase flow is supplied to the collector 4 through nozzle 2. From there it enters the accelerating device 5 By changing the direction of motion in the accelerating tubes 8, solid particles are deposited from the two-phase flow by the inertial forces on the inner surface of tubes X, wetted with liquid supplied through the holes 7 of the tube 6. Wetted particles flow down the surfaces of the deposition of the vertical partition 10 into the liquid poured into the bottom of the tank. The pre-cleaned gas at the outlet of the accelerating device 5 changes its direction, moving by 180, as a result of which, under the action of inertial forces, particles remaining in it fall out, which are deposited on the surface of the liquid. For the second time, the purified gas leaves upwards and leaves the “cut-off nozzle 3” out. The separation of liquid particles from a two-phase flow is similar to the process of separation of solid particles, but differs in that the precipitates are not wetted.

fluid through the holes 7.

The presence in the invention of a horizontal collector and accelerating device increases the separation efficiency due to the fact that the two-phase flow in the curvilinear channels of the accelerating device is pre-divided into a layer of particles and gas. Particles in this passage pass a much smaller distance through the thickness of the gas flow to the surfaces than known devices.

Reducing the secondary entrainment of particles is achieved by the fact that, after exiting the accelerating tubes, vertical partitions are installed with the lower edges bent by the edges immersed in the liquid.

The separation efficiency is increased by reducing the vortex formation in the region of the deposition surfaces.

Claims (2)

1. Handbook of dust and ash collection ed. A.A. Rusanova, M., Energie, 1975, p. 106, fig. 4-14 2. USSR author's certificate number 162506, cl. B 01J 47/06, 1963.