SU1542628A2 - Drip pan - Google Patents

Abstract

The present invention relates to the centrifugal cleaning of dust-laden gases and allows for an increase in the effectiveness of the drop-collecting. Mist eliminators are installed in the housing the contact plate, the distance between them decreases in the direction of the axis of the housing by the correction value K = ^N. 0.12 ^. R ₁ , where N is the maximum distance between the contact plates

0.12 - correction factor

R ₁ is the radius of curvature of the plate following the maximum distance between the plates from the axis of the body. 2 Il.

Description

The invention relates to the centrifugal cleaning of dust-laden gases and can be used in the metallurgical, chemical and other industries.

The purpose of the invention is to increase the efficiency of drop collection.

FIG. 1 shows a drift catcher, a longitudinal section; FIG. 2 shows section A-A in FIG. one.

The drift catcher includes a housing 1 with a tangentially installed inlet nozzle 2, a catching device 3 containing contact plates 4, a slit 5 of variable cross section, a bottom 6 and a hydraulic lock 7. An axial outlet nozzle 8 is located in the upper part of the housing. A truncated cone 9 is attached to the inner plate. The drip tray has a discharge opening 10.

The distance between the contact plates 4 decreases in the direction from the body axis by the amount of correction.

A and-0.12 / ,,

where n is the maximum distance between the contact plates; 0.12 correction factor;

Ri is the radius of curvature of the plate following the maximum distance between the plates from the axis of the body.

The drip pan works as follows.

The gas guide to the mixture through the inlet 2 of the housing 1 is sent to the catching device 3, acquiring an additional twist. Due to the centrifugal forces arising in the trapping device, the drip moisture in the gas flow is deposited on the contact plates 4 and through the slit 5 of variable cross section is discharged through the opening 10. The bottom of the truncated cone 9 must be installed with such a distance to the walls of the housing 1 , in order to ensure complete filling of the gap with the possibility of avoiding dripping from the bottom 6.

Since the centrifugal forces depend on the radius of the contact plates between which the gas moves, and, according to known laws, decrease with increasing radius, to eliminate the uneven degree of droplet-trapping between the individual contact plates, the distances between them are different, decreasing to the outer wall of the drift catcher. This is explained as follows: in order to release droplet moisture from the gas stream, it is necessary that all the drops,

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located in the gas flow, reached the contact plates, and since they reach them due to centrifugal forces, with the decrease of the latter it is necessary to bring the contact plates closer to each other.

The maximum possible distance between the plates

n Rl-R- - Ri; nz RZ ... nn Rn - Rz,

where Rn is the radius of curvature of each subsequent contact plate;

R, RiR3

and so on - the radius of curvature of the previous contact plate.

An example of calculating the distance between the contact plates of a particular droplet collector. The drop catcher radius 2 m; the width of the inlet is 0.8 m. Therefore, the radius of the first contact plate from the axis

R Ra - a R 2 - 0.8 1.2 m. Accepting the original distance between contact plates with radii R and equal to n 0.3 m, determine /, / + / g 1.2 + 0.3 1.5 m.

The correction value k is determined: k l-0.12- /,

k 0,3-0,12-1,5 0,054 m, the distance between the plates with radii I Y 2

p p - k

P 0.3 - 0.054 - 0.246 "0.25 m. Sign n, determine the radius Rz

  I | -Ml

R2 1.5 + 0.25 1.75 m

The following is determined and. P2 ha, - k 0.25 - 0.054 0.196 0.2 m. R3 + L2 1.75 + 0.2 1.95 m. Then the calculation continues.

The gases cleaned by 90-95% of the apels of moisture enter the body 1 of the droplet separator, where they are additionally cleaned and the purified gas leaves through the outlet 8. At the expense of natural sedimentation,

By the force of gravity, large drops formed in the catching device are diverted through the hydraulic lock 7 to the sludge drainage system.

Installing contact plates in this way, as compared with the prototype, allows an increase in the overall effectiveness of the drop catcher by 2-5%.

Claims (1)

Invention Formula Drip tray auth. St. No. 1223999, characterized in that, in order to increase the drop-collecting efficiency, the distance between the contact plates is reduced in the direction from the body axis by the correction value k n-0.12., where n is the maximum distance between the contact plates; 0.12 correction factor; R is the radius of curvature of the plate following the maximum distance between the plates from the axis of the body. five and Aa In the sludge xhu sewer 1 3 FIG. Z