SU1017374A1 - Centrifugal scrubber - Google Patents

Abstract

1. CENTRIFUGAL SKRUBBER for gas depletion, including a cylindrical body, a gas supply tangential pipe, a gas outlet pipe for gas discharge, a drain pipe with a discharge pipe, and irrigation nozzles located in the B1 gas supply pipe and in the upper part of the body, and that, in order to intensify the cleaning and mass transfer processes by increasing the gas flow rate, the scrubber is equipped with a fender plate installed between the drain nozzle and the gas outlet nozzle, the lower end of which is located below Deck O gas. (L S oo sj

Description

2. A scrubber according to Claim 1, characterized in that the drain connection is installed with a tangential discharge pipe.

3. A scrubber according to claim 1, characterized in that it is provided with a pivoting wall with a retainer placed at the gas inlet D.

The invention relates to devices for collecting dust from gases and can be used in chemical industry, in particular in soda production. . . A centrifugal scrubber for dust removal of gases is known, which includes a cylindrical body, and a tangential gas inlet is located at the bottom of the Kojopoi. In the upper part of the building there are nozzles for liquid wall irrigation, and above them is a nozzle for cleaned gas). The disadvantage of the scrubber is the limited gas cleaning efficiency, due to the impossibility of increasing the gas flow rate. The closest to the proposed technical essence and the achieved result is a centrifugal scrubber for dedusting gases comprising a cylindrical body that has a genital pelvic inlet nozzle, a gas outlet nozzle, a drain nozzle with a discharge pipe and irrigation nozzles placed in the nozzle under the water and gas the upper part of the hull 2. However, in this scrubber the velocity of the gas is limited to 10 m / s. Increasing it, required in case of cleaning the source gas of excessive dustiness (dust content more than 2 g / m), does not ensure complete removal of foam, it accumulates in the scrubber and prevents further increase in the gas velocity in it, simultaneously causing fluid accumulation and its removal along with dissolved in it components (or dust) from the scrubber. , The aim of the invention is to intensify the processes of gas purification and mass transfer by increasing the gas velocity. The goal is achieved by the fact that a centrifugal scrubber for dedusting gases, including a cylindrical body, a tangential gas supply nozzle, a gas output nozzle, a drain nozzle with a discharge pipe, and irrigation nozzles located in the gas supply nozzle and in the upper part of the body, are provided with a baffle plate, installed between the drain pipe and the gas outlet pipe, the lower end of which is located under the gas outlet pipe, while the drain pipe is installed tangentially to the exhaust pipe. The scrubber is equipped with a rotating wall with a retainer placed in the gas inlet pipe. Installing the baffle plate prevents the film of fluid from moving through the inner wall of the housing due to centrifugal force past the drain pipe to the gas outlet pipe, which allows the liquid film to be completely separated and to avoid the release of dust or component from the scrubber. The fluid film moves along the wall of the apparatus in an upward swirling flow, i.e. along the helix. The fluid passing under the lower end of the baffle plate is not trapped by it, and does not enter the gas outlet nozzle, but is separated by a plate on the next turn. For this, the ratio of the length of the end of the plate that protrudes below the bottom section of the nozzle to the width of the outlet nozzle of the gas must be greater than the tangent of the angle of the helix. The installation of the discharge nozzle is also tangential with respect to the discharge pipe, which prevents the formation of a reverse hydraulic shock in the drain nozzle, which can cause the accumulation of fluid in the nozzle and its backflow into the cylindrical body. Therefore, such an arrangement improves the drainage conditions of the liquid and allows for complete removal of the foam formed in the scrubber. Installing an inlet gas inlet pipe with an internal pivot wall with a fixture allows you to adjust the cross section of the inlet pipe and the angle of its confuasion narrowing in order to increase the velocity of the incoming gas while maintaining an unstressed tangential entry. All this allows increasing the gas velocity in the scrubber up to 30 m / s and intensifying the mass transfer process so that the dust content of the gas supplied to the gas cleaning is allowed up to 50 g / m. At the same time, the gas is cleaned to a content of 0.05 g / m- . The drawing shows the proposed scrubber, a General view. The centrifugal scrubber contains a cylindrical body 1, in the bottom of which there is a tangential nozzle 2 for introducing dusty gas with an internal pivoting wall placed in it which in the nozzle 2 is regulated by a fixing device 4. In the upper part of the cylindrical body 1 is located the nozzle 5 of the cleaned gas outlet, directly in front of which a tangential drainage pipe 6 is installed for separating the purified liquid with a liquid; The pipe 6 is placed tangentially with respect to the discharge pipe 7, through which the separated liquid is discharged. In the zone of the gas outlet nozzle 5, a baffle plate 8 is placed, as well as a separating entrained liquid and arranged so that it partially covers the width of the cross section of the gas outlet nozzle 5. The lower end of the baffle plate protrudes so below the lower cut of the gas outlet nozzle 5 that the ratio of the length of the protruding end of the plate 8 to the width of the nozzle 5 of the purified gas supply must be greater than the tangent of the helix lift angle. Below the nozzle 5 of the cleaned gas outlet, and the tangential drain nozzle 6, also in the upper part of the housing 1 are placed irrigation nozzles 9 for uniform irrigation with liquid of the entire flow section and the inner walls of the cylindrical housing 1. In the tangential nozzle 2 input dusty gas also placed irrigating nozzles 10. The proposed scrubber works as follows. The irrigated liquid is fed into the nozzles 9 and 10, after which the fixing device k is installed in a certain position by turning the wall 3 while adjusting the cross section and the angle con (the narrowing of the gas inlet pipe 2 and feeding the dusty gas into the cylindrical body 1 at a given speed The gas rises up the helix, throwing the dust particles to the walls under the action of centrifugal forces and carries away a film of liquid, which in the zone of the nozzle 5 of the clean gas outlet is separated using breaker plates. 8 and a tangential drain pipe 6, after which it is discharged through the discharge pipe 7. The irrigated liquid forms a film at the walls of the housing and dilutes the concentrated liquid flow transported by the gas from the bottom. When the liquid film thickens, it becomes unstable. , and those located closer to the interface (to the gas) are transported upwards. The resulting vapor-like fluid layers produce a pair of forces that produce vortices, the centers of rotation of which are subject to transverse pulsations (for example, from the wall of the apparatus to the interface and vice versa), which turbulently intensively develop and update the surface of the contact of the phases due to the mutual penetration of gas and liquid. At the same time, the liquid is well mixed, leveling the concentration of the dissolved component over the entire mass of liquid. At the same time, an increase in the absorption intensity of trapped dust is observed at a gas velocity exceeding 10 m / s. At a gas velocity of about 30 m / s, the mass transfer process proceeds most intensively. The conditions for fluid separation at these rates are also improved, as this increases the effect of the field of centrifugal forces. .

5101737A. “.

The proposed scrubber differs in 50 g / m, while the outgoing gas is cleaned by stable operation under dustiness to contain the dust of the incoming gas stream in it to g / m.

Claims (3)

1. CENTRIFUGAL SCRUBER for gas dedusting, including a cylindrical body, a tangential gas supply pipe, a gas pipe, a drain pipe with a pipe and irrigation nozzles located in the gas pipe and in the upper part of the housing, The reason is that, in order to intensify the cleaning and mass transfer processes by increasing the gas velocity, the scrubber is equipped with a baffle plate installed between the drain pipe and the gas outlet pipe, the lower end of which is located under the pipe gas outlet. SU, „. 1017374 2. Scrubber by π. 1, characterized in that the drain pipe is installed tangentially outlet pipe. 3. Scrubber by π. 1, characterized in that it is provided with a rotary wall with a latch located in the gas supply pipe.