SU689737A1 - Group cyclone - Google Patents

Description

(54) GROUP CYCLONE

The invention relates to the purification of gas from suspended particles in cyclones, and can be used in various fields of technology. A group cyclone is known that contains a hopper for trapped dust and a collector of dusty gas to which oblique angles are attached to cyclones Ts by inlet nozzles. This reduces trapping efficiency, as particles enter the cyclone at the inner wall of the inlet and then move to the outer wall. As a result, the separation path of particles increases and the probability of their removal from the cyclone increases before they reach the outer walls of the apparatus. In addition, a twofold change in the flow direction increases the hydraulic resistance. entrance area. The purpose of the invention is to increase the efficiency of dust collection and increase the service life of the apparatus by reducing the particle separation path. For this purpose, in the proposed group cyclone discharging from the collector in the direction of the gas, cyclones of the right rotation are installed, and on the left - cyclones of the left rotation. With this design of the apparatus, even before entering the cyclone, dust particles are concentrated at the outer wall of the inlet nozzle, which increases the trapping coefficient. Figure 1 shows the proposed cyclone, in plan; figure 2 is the same, side view. A group cyclone consists of a collector 1 for supplying a dusty gas to individual cyclones 2, located symmetrically relative to the longitudinal axis of the collector, bunkers 3 and 4 for collected dust, a collection 5 of purified gas. The dust gas collector is made with a variable cross section and is narrowed in the direction of gas flow, it is equipped with connecting pipes 6 with pressure caps 7. The dust gas collector is equipped with a discharge chamber 8 connected

with a hopper 4. The location of the connecting nozzles 6 relative to the longitudinal axis of the collector 1 ensures that the flow turns into the nozzle from the input of the collector by 90-120. In this case, the direction of rotation at the entrance to the nozzle b coincides with the direction of rotation of the gas in the cyclone.

Group cyclone works as follows. .

Under the action of a gap created by a fan or other device, the gas to be cleaned is poured into the collector 1 and directed through the connecting pipes 6 to cyclones 2. Upon entering the connecting pipes the dusty gas bends around the visors 7 and changes its direction by 90-120 °. As a result of rotation at the entrance to the nozzle b, a centrifugal inertia force arises.

The effect of inertial separation is further enhanced by the fact that before turning the flow into the nozzles 6, the velocity of the dusty gas increases due to a decrease in the cross section of the collector, and the dust particles acquire an additional impulse of kinetic energy of the translational motion.

Under the action of centrifugal force, large dust particles are separated from the stream and continue to move along the original linear trajectory along with the rest of the gas mass. This process is repeated when the gas is turned into each pair of cyclones. Separated in this way, a large fraction of the dust enters the discharge station at 8 and settles in the bunker .4. Small motes that do not have sufficient mass, when turning the flow at the entrance to the nozzle b, do not have time to separate from the flow, but under the action of the same centrifugal force move in the direction of flow and concentrate near the outer wall of the cyclone inlet.

Having rounded the guide visor 7, the dust-gas flow enters tangentially into the cyclone and twists. In the cyclone body, the dust separates the CR from the stream and enters the hopper 3, 5, and the purified gas passes through the cyclone exhaust nozzles. It is directed to the collector 5 of the purified gas and then leaves the apparatus.

In the cyclone gas cleaning process

Q occurs in the usual way with the difference that, firstly, due to the absence in the stream entering the cyclone, large fractions of the dust of the cyclone wall are not subjected to intense abrasive wear, as is the case in known apparatuses, and secondly , the efficiency of trapping fine fractions of dust is increased, since when the flow turns before the inlet pipe KOM, the frequencies are concentrated in the peripheral: layers (closer to the outer wall of the cyclone), i.e. appear to be more favorable for their separation.

Decrease particle distance to

 the outer wall of the cyclone at the time of entry into the cyclone increases the probability of its deposition.

Claims (1)

1. USSR author's certificate No. 481320 Cl. B 04 S 7/00, 08.24.71.