SU931213A1 - Apparatus for dry cleaning of air from dust - Google Patents

Description

I

The invention relates to devices for separating dust particles using inertial forces from an air or gas stream and can be used in national enterprises in enterprises where there is intense dust emission, for example, in building materials factories, the food industry, etc.

A device for dry separation is known, comprising a housing, an inlet and an outlet, located at its ends, and a drain outlet, located at the bottom of the housing. The upper wall of the housing has a curvilinear surface, the convexity of which is directed inside the housing. The cleaned gas stream through the inlet enters the body and, meeting with the convex part of the upper wall, is deflected in the opposite direction. Dust particles under the action of gravity fall out of the GAS flow and rush to the bottom of the body. Trying to maintain the direction of its motion after the gas flow turns, dust particles are thrown to the bottom of the body due to the action of inertial forces arising along with the force of gravity til

The main disadvantage of this device is the low degree of gas purification due to the loss of speed in the working part of the chamber and the entrainment of small particles of fluff from the effluent gas.

Claims (2)

A dust collector is known that contains an upper wall with a protrusion, a lower wall, above which several convex plates are installed behind the protrusion along the gas, under which a channel is formed to drain the concentrated dust-gas stream. In the known device, a high degree of air purification from dust is achieved, reaching 89.7%. The concentrated flow passes under the plates and is removed through the outlet, and the cleaned flow, the flow between the plates, is additionally cleaned of fine particles. However, this produces turbulence, which contributes to the entrainment of the lightest particles with a stream of purified air. The purpose of the invention is to increase the cleaning efficiency due to the intensive removal of fine dust. The goal is that the device is equipped with an additional convex plate installed above the bottom wall up to the protrusion along the route: helix and the introduction of recycled air placed under this plate. Due to the flow of recirculated air from plastic flow, there is an intensive removal of fine particles under the plate located behind the protrusion. FIG. 1 shows a device for dry air cleaning, a section; FIG. 2 shows a dust collector composed of several devices for dry air cleaning; FIG. 3 dust collector with recirculation system. The air cleaning device has a housing I with inlet 2 and 3 outlet pipes located at its ends. The upper wall 4 of the housing 1 has a protrusion. The opposite stanza 5 is flat and on it inside the housing 1 are mounted with a gap between them two curved radii of plates 6 and 7. Plate 6 is located: to the ledge and forms a narrowed slit with wall 4 directed toward wall 5, plate 7 is located behind the projection and forms an expanding gap with the same wall. The free ends of the plates 6 and 7 with the wall 5 form a certain gap. Under the plate 6 there is an inlet 8 for recirculated air, along the plate 7 - an outlet 9, which are connected to the recirculation system in the air, including cyclone III, the fan 11 and the hopper 12. The device works as follows. 4 Dusty air through the inlet 2 enters the housing I and, the passage through the narrowed slit formed by the plate 6 and the wall 4, bends around the plate 6, thereby change its direction. When the air flow turns, dust particles in it are centrifugal. the forces are thrown against the wall 5 and, the passage through the gap by the mezvdu plates 6 and 7, enter the flow of recirculated air entering this time through the inlet 8 moving along this wall. Dusty air is fed through air outlet through outlet 9 to the hopper 12 of the recirculation system, and then to the cyclone 10 for cleaning. The dust-free air flow through the nozzle 8 is removed from the housing. A dust collector of any desired capacity can be assembled from the individual proposed devices for dry air cleaning from plungi. For this case, the I devices are arranged parallel to each other, and their inlets 2 and the outlets 3 are connected by common pipes, respectively 13 and 14 pipes. The inputs 8 and terminals 9 of all the chambers assembled into a single dust collector are respectively connected by a common collector 15 and a bunker 12. Laboratory tests of the proposed device show that when cleaning the air from lime-sand dust with a flow rate of 2300 m / h, the air flow rate in the circulation line is 930 m / h, the concentration of the spray at the entrance to the device is 350 mg / m, at the exit 30, 8 mg / m, the hydraulic resistance of 50.6 kg / m2, and cleaning efficiency of 91.2%. The proposed device increases the degree of air purification, as it captures both large and small dust particles. As the air flow rate increases, the food pack penetrates more intensively into the recirculated air flow, which increases the cleaning efficiency. Regardless of the magnitude and speed of the heap, the pie cannot return from the recirculated air stream to the outgoing cleaned stream. DETAILED DESCRIPTION OF THE INVENTION A device for dry air from a dust containing a top wall with a protrusion, a bottom wall above which a convex plate is installed behind the protrusion along the gas a convex plate is placed under which the outlet of the concentrated dust-gas stream is located, in that increasing the cleaning efficiency due to the intensive removal of a fine piece, it is provided with an additional convex plate installed above the bottom 36 wall to the upper step along the gas, and introducing recirculated air placed under it. Sources of information taken into account in the examination 1. Rusanov A.A Handbook of dust and ash collection. M., Energy 1975, p. 52. 2. For France of France No. 2311573, cl. On 01 D 45/04, 1976.  8 S7 d Phage.1 13 .l 15 1Z u, z.3