SU850177A1 - Apparatus for complex cleaning of gas - Google Patents

Description

The invention relates to a technique for purifying gases from gas and harmful impurities and. It can be used in any branch of the national farm, in particular, for sanitary cleaning of air discharged from screw-crisps to the atmosphere, from ammonia and dust in the production of cristaypical carbamide. A gas purification device is known, comprising a housing with gas inlet and outlet fittings for gas and liquid, a distribution grid, the distribution of which is made in the form of koppacks, and a fluidizable grid located on the distribution grid that is known to the device is the limited throughput capacity gas (the given gas velocity is not more than 2 m / s) due to the entrainment of liquid with a gas stream, the degree of gas purification from the drone and harmful impurities is low due to insufficiently developed oh contact surface of phases. The closest in technical essence to the present invention is an apparatus for complex gas cleaning, comprising a housing with a basement and a discharge nipples, a support distributor plate with a liquefied nozzle placed on it and a perforated guide grid C2j. However, in a well-known apparatus, high hydraulic resistance due to friction of the upward flow is descending, which, under increased gas loads, leads to degeneration of the circulation circuit and pressure of the weighted nozzle to the guide grid, which results in a decrease in turbulization and reduced cleaning efficiency. A significant disadvantage of this device is low gas consumption, as with an increase in the reduced gas velocity over the apparatus over 2 m / s, the liquid entrainment with the purified gas flow increases dramatically.

for dispersing it in the perforated partition.

The circuit of the invention is an increase in the efficiency of complex gas cleaning, a decrease in the hydraulic resistance and an extension of the range of stable operation due to the organized movement of the weighted nozzle and the prevention of secondary entrainment of liquid.

The fixed chain is achieved by the fact that the apparatus is provided with a shell installed coaxially between the guide grate and the gas distribution plate at a distance from them, while the guide grate is made in the form of one and a half.

In addition, the device is equipped with a conical nozzle with a centrifugal separator installed on the perforated part of the guide of the grid.

In this case, the gas distribution plate between the body and the shell is made in the form of a reverse cone.

FIG. 1 shows the proposed apparatus, longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The apparatus consists of a housing 1 with inlet 2 and 3 and outlet 4-6 fittings, a gas distributor plate 7 with a baffle in the form of a reverse cone 8 and a U shell installed above it with a gap 9 of shell Y, which separates the apparatus into a bubbling 11 and a circulating 12 zone. In the upper part of the apparatus with a gap of 13 to the shell Yu, a guiding one and a half lattice 14 is installed, above the perforated part of which there is a tapered nozzle 15 with a centrifugal separator 16, and at a distance from it and with a gap to kspusu 1 a cone-shaped reflector 17 is installed. The drain pipe 18 is lowered through the one-and-a-half lattice guide 14 into the circulation zone 12. A gas ball 10 is placed on the gas distribution plate 7.

The device works as follows.

The contaminated gas through the nozzle 2 is fed under the gas distribution plate 7 into the bubbling gas through the liquid layer in the bubbling zone 11, forms a gas-liquid emulsion, in which the fluid nozzle 19 is blown off. The fluidized bed obtained in the bubbling zone is highly turbulent with a liquefied ball joint, which is contact with each other, deforms and crushes gas bubbles, thereby contributing to the continuous renewal of the surface, contact of the phases and, accordingly, an increase in the efficiency of gas cleaning from contained In her impurities. The fluidized upstream skip is destroyed, approaching the pop-up toroidal grid 14, which guides the ball nozzle 19 and the liquid through the gap 13 between the grid 14 and the shell 10 to the circulation zone 12, where the downward movement of barb is formed. - 11 and circulating 12 zones. The fluid and ball nozzle 19, after receiving a downward movement in the circulation zone 12 along the guide cone 8, flows through the gap 9 formed by the shell 10 and the gas distribution plate 7 into the bubbling zone 11.

As the gas flow rate increases, the gas content of the fluidized bed in the bubbling zone increases, respectively, the density of the fluidized bed decreases, and this leads to an increase in the circulation rate of the fluid and the ball nozzle in the resulting circuit, which contributes to a decrease in hydraulic resistance and an increase in gas cleaning efficiency.

The cleaned gas with a part of the liquid through a one-and-a-half lattice 14, having a large free cross section, enters the pipe 15, where additional gas is cleaned from impurities by finely dispersed liquid droplets, which are separated in the centrifugal separator 16. the separator 16 is thrown onto the cone-shaped reflector 17, it is rolled over it into the separation space. The liquid accumulated in the separation space is poured through the bushing pipe 18 into the circulation zone and is discharged through the pipe 6. The gas purified from impurities and dry gas is discharged through the valve 4.

Thus, the proposed design of the apparatus for complex gas cleaning allows an increase in the efficiency of cleaning by creating a highly turbulized layer with a continuously renewed surface of contact between the phases by organizing the directional circulation of a weighted nozzle, as well as the hydraulic resistance of the device when it is above other gas loads.

the account created circulating pioneer Eontur.

Formupa invention

Claims (3)

1. An apparatus for integrated gas cleaning, comprising a housing with fittings and discharge nipples, a support distribution plate with a nozzle placed on it and a perforated guide grid, characterized in that, in order to increase the efficiency of integrated gas cleaning, to reduce the hydraulic resistance and expanding the range of stable operation due to the ort of the movement of the weighed nozzle and the prevention of re-entrainment of fluid, it is provided with a shell installed coaxially between the body l khtsey grating in hectare aoraspredepitepnoy plate at a distance from them, wherein the guide D "Brushes made in the form of a half. 2. The apparatus according to claim 1, wherein the case is equipped with a conical patcher with a centrifugal separator mounted above the perforated part of the guide grating. 3. The apparatus according to claim 1, in accordance with claim 1, so that the gas distribution plate between the housing and the shell is made in the form of a reverse cone. Sources of information, take into account in the examination 1. USSR author's certificate N 582815, class O1 D 47 / OO, 1975. 2. Taret E. Ya. Intensive column apparatus for treating gases with liquids. L., LSU, 1976, p. 174-175.