RU2281149C1 - Impulse delay-action scrubber - Google Patents

Abstract

FIELD: processes and equipment for wet dust trapping, possibly in chemical, textile, food making and other branches of industry.

SUBSTANCE: scrubber includes housing, branch pipe for inlet of dust laden has having cylindrical portion, converging portion and diffuser, branch pipe for discharging scrubbed gas, reservoir with liquid, washing out jet and pipe for withdrawing sludge. Diffuser for inlet of dust laden gas includes arranged coaxially outer and inner cone branch pipes mounted with mutual gap "d" and joined one to other through spacing members placed between inner surface of outer cone branch pipe and outer surface of inner cone branch pipe. Small bases of branch pipes are turned to side of converging portion and large bases of branch pipes are turned to side of reservoir with liquid. Outer cone branch pipe is joined along perimeter of its small base with converging portion. Large bases of cone branch pipes are spaced from surface of liquid by gap "b". Relation of gap "d" between coaxially arranged cone branch pipes and gap "b" between large bases of cone branch pipes and liquid surface is in range: d/b = 1.0 - 3.0.

EFFECT: enhanced efficiency and reliability of dust trapping process.

2 cl, 1 dwg

Description

The invention relates to techniques for wet dust collection and can be used in chemical, textile, food, light and other industries for the purification of dusty gases.

A known apparatus for wet cleaning of dusty air by AS USSR No. 1711952, cl. 01 D 47/06 of 05/14/90, comprising a housing, a water sprinkler, a gas stream inlet, a clean gas outlet pipe and a sludge outlet device.

Its disadvantage is the relatively low efficiency of the dust collection process, as well as the complicated design.

The closest technical solution to the claimed object is a scrubber, known from the book of A.A. Rusanov. A guide to dust and ash collection. M., - Energoatomizdat, - 1983, p. 106. Fig. 4.26 (prototype), comprising a housing with nozzles for dusty and purified gas, a reservoir with liquid, a flushing nozzle and a pipe for discharging sludge.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process.

The technical result is an increase in the efficiency and reliability of the dust collection process.

This is achieved by the fact that in a shock-inertial action scrubber containing a housing, a pipe for introducing dusty gas, consisting of a cylindrical part, a confuser and a diffuser, and a pipe for exiting the purified gas, a reservoir with liquid, a flushing nozzle and a pipe for removing sludge, a diffuser for introducing dusty gas, it is made of coaxially located external and internal conical pipes, forming a gap “d” between each other and interconnected by means of spacers located between the inner surface of the external conical of the nozzle and the outer surface of the inner conical nozzle, with the smaller bases of the nozzles facing the confuser, and the larger ones to the reservoir of liquid, and the outer conical nozzle connected along the perimeter of the smaller base with the confuser, and the larger base of the conical nozzles forms a gap “b ", And the ratio of the gap" d "between the coaxially located outer and inner conical nozzles and the gap" b "formed by the large bases of the conical nozzles with a liquid mirror, is in the optimal range of d / b = 1.0 ... 3.0.

The drawing shows a scrubber shock-inertial action.

An inertial shock scrubber comprises a housing 1, a nozzle 2 for introducing dusty gas, consisting of a cylindrical part 1, a confuser 7 and a diffuser 9, and a nozzle 3 for exiting the purified gas, as well as a reservoir 4 with liquid, a flushing nozzle 5 and a pipe 6 for sludge discharge. The diffuser for introducing dusty gas is made of coaxially located external 9 and internal 8 conical pipes, forming a gap “d” between each other and interconnected by spacers (not shown in the drawing) located between the inner surface of the outer conical pipe 9 and the outer surface of the inner conical pipe 8, the smaller bases of the pipes facing the confuser 7, and the larger ones to the reservoir 4 with the liquid. The outer conical pipe 9 is connected along the perimeter of the smaller base with the confuser 7, and the larger base of the conical pipes 8 and 9 forms a gap “b” with the liquid mirror 4. The ratio of the gap "d" between the coaxially located outer and inner conical nozzles and the gap "b" formed by the large bases of the conical nozzles with a liquid mirror is in the optimal range of d / b = 1.0 ... 3.0.

Scrubber shock-inertial action works as follows.

The dusty gas stream enters the housing 1 through the input of the dusty gas stream 2 and encounters an obstacle from the liquid 4 on its way, while the gas is in contact with the liquid due to the impact of the gas stream on the liquid surface, followed by passing the gas-liquid suspension through the liquid separator (in the drawing not shown). As a result of this interaction, droplets 300-400 microns in size are formed.

Due to the fact that in this scrubber scheme there are no means of moving the liquid, all the energy needed to create the contact surface is supplied through the gas stream. In this case, the process of formation of gas-liquid suspension is intensified by performing a diffuser consisting of two coaxially located external 9 and internal 8 conical pipes, and the ratio of the gap “d” between the coaxially located external and internal conical pipes and the gap “b” formed by the large bases of the conical pipes with liquid mirror, is in the optimal range of values d / b = 1.0 ... 3.0. The effect of the formation of an air annular curtain due to the flow of gas flowing out of the annular gap "d", followed by the impact of the main stream from the nozzle 8 and intensive mixing of these flows. To remove sludge, a device was used in the form of a flushing nozzle 5 and a pipe 6 for discharging sludge.

The proposed scrubber can be used to clean fine dust and humidify air in ventilation units and air conditioning units, as well as in trapping fogs, readily soluble dust, as well as in the process of dust collection, gas cooling and absorption. The effectiveness of the proposed design of the scrubber increases due to the larger surface of the gas-liquid suspension in the above processes and when collecting dust particles larger than 2 microns in size is about 92%.

Claims (2)

1. Scrubber shock-inertial action, comprising a housing, a nozzle for introducing dusty gas, consisting of a cylindrical part, a confuser and a diffuser, and a nozzle for the outlet of the purified gas, a reservoir with liquid, a flushing nozzle and a pipe for discharging sludge, characterized in that the diffuser for introducing dusty gas, it is made of coaxially located external and internal conical pipes, which form a gap d, and are interconnected by spacers located between the inner surface of the external conical pa the tube and the outer surface of the inner conical pipe, with the smaller bases of the pipes facing the confuser, and the larger ones to the reservoir of liquid, and the external conical pipe connected around the perimeter of the smaller base with the confuser, and the larger base of the conical pipes forms a gap b. 2. The impact-inertial scrubber according to claim 1, characterized in that the ratio of the gap d between the coaxially located external and internal conical nozzles and the gap b formed by the large bases of the conical nozzles with a liquid mirror is in the optimal range of values: d / b = 1.0 ... 3.0.