RU2765422C1 - Apparatus for wet gas cleaning - Google Patents

Abstract

FIELD: gas purification.

SUBSTANCE: invention relates to the field of purification of dusty gases. The device for wet gas purification contains a cylindrical body with a conical bottom and pipes for the output of purified gas and sludge, a device built into the body consisting of a suction chamber, a confuser and a neck, a nozzle and a drop-collecting device. The drop-collecting device is a diffuser mounted in the lower part of the neck with an opening angle equal to the angle of the nozzle spray torch and made of a perforated filter baffle having a hole diameter commensurate with the size of the droplets of the sprayed liquid.

EFFECT: increase in the efficiency of gas purification, the reliability of the device.

1 cl, 2 dwg

Description

The invention relates to the field of purification of dusty gases and can be used in the chemical, food and metallurgical industries, production of building materials, as well as in thermal power engineering.

The closest in technical essence and the achieved effect is the device [Patent 2548092 (Russian Federation), MKI B01D 47/06 Apparatus for wet gas cleaning / S.Yu. Panov, A. V. Zinkovsky, M. Himvinga - Appl. November 29, 2013, No. 2013153016/05, publ. in B.I., 2015, No. 10]. The device for wet cleaning of gases consists of a cylindrical body with a conical bottom and branch pipes for the removal of sludge and the discharge of purified gas, built into the body of the device with a nozzle, consisting of a suction chamber, a confuser, a neck

In the lower part of the neck there is a drop catching device, which is a chain suspended on a clamp, mounted in the lower part of the neck by means of pins and two detachable connections.

The disadvantage of this device is the complexity of the design of the droplet catching device, its increased weight, the difficulty of cleaning from particles stuck together with chains, and because of this, a possible low degree of purification of the gas stream. In this case, the particles arriving for cleaning do not come into contact with the wetted surface, but with the surface of the dry particle, from which elastic rebound and return to the flow are possible.

The technical task of the invention is to improve the efficiency of gas purification and reliability in the operation of the apparatus, to simplify the design of the drop catching device and to reduce the metal consumption of the apparatus.

The technical task of the invention is achieved by the fact that in the apparatus for wet gas cleaning, containing a cylindrical body with a conical bottom and nozzles for the outlet of purified gas and the outlet of sludge, a device built into the body, consisting of a suction chamber, a confuser and a neck, a nozzle and a droplet catching device, is new is that the drop catching device is a diffuser mounted in the lower part of the neck with an opening angle equal to the angle of the spray jet of the nozzle and made of a perforated filter wall having a hole diameter commensurate with the size of the drops of the atomized liquid.

The technical result of the invention is to increase the efficiency of gas purification and reliability in the operation of the apparatus, to simplify the design of the drop catching device and to reduce the metal consumption of the apparatus.

In FIG. 1 shows the structural diagram of the apparatus; in fig. 2 - drop catcher, view A of FIG. one.

The apparatus for wet gas cleaning consists of a cylindrical body 1 with a conical bottom and nozzles for the removal of sludge and the discharge of purified gas, built into the body of the device with a nozzle 5, consisting of a suction chamber 2, a confuser 3, a neck 4.

The confuser 3 serves to increase the gas velocity, in which an irrigation device in the form of a nozzle 5 is placed, dust particles are deposited on water drops in the neck 4 and coagulation processes take place, and by reducing the velocity, part of the pressure is restored, which was used to create a high gas velocity.

The cross sections of the confuser and the neck are selected in such a way as to create conditions for the ejection of gases by a liquid flow.

A drop-catching device 6 is mounted to the lower part of the neck, which is a diffuser with an opening angle α equal to the nozzle spray angle and made of a perforated filter partition having a hole diameter d _resp . commensurate with the size of the sprayed liquid droplets.

The diameter of the holes should be approximately twice the median size of the sprayed liquid. For example, if the median size of liquid droplets d _m =100 µm, then the diameter of the holes should be d _holes =200 µm.

The diffuser is attached to the neck by welding or a detachable connection (not shown in the figure).

The relevance of this proposal is due to the fact that a large number of modern chemical and technological processes are associated with crushing, grinding and transporting bulk materials, burning solid fuels, which inevitably leads to the transition of some materials into an aerosol state, forming dust, which with technological or ventilation gases is released into the atmosphere.

Dust particles have a large total surface, as a result of which their chemical and biological activity is very high. Some substances in the aerosol state acquire new properties, such as the ability to explode.

Based on this, a thorough cleaning of the gas stream from solid particles and tarry liquids is necessary. This development is aimed at solving this problem.

Apparatus for wet scrubbing works as follows.

The operation of the apparatus is based on the crushing of water by a turbulent gas flow, the capture of dust particles by water drops, their subsequent coagulation and removal from the apparatus.

The liquid flows out of the nozzle 5 at high speed in the form of a jet, which breaks up into drops, which form a drop curtain in the section of the neck 6, similar in its characteristics to a granular filter packing. Solid particles and gas molecules moving in the gas flow, passing through the drop curtain, are trapped by drops as a result of the collision. Several particles can be deposited on one drop, that is, dynamic coagulation occurs.

Water drops are sprayed into small particles in the form of mist and fill the entire volume of the confuser 3, gas with dust particles enters through the pipe from the suction chamber, which are captured by water drops and, under the action of gravity, are fed down and discharged through the sludge outlet pipe, the purified gas is discharged from the apparatus .

Next, liquid drops fall on the droplet catching device 6.

When gas flows with suspended droplets and particles through an orifice, the flow lines contract to the diameter of the orifice. In this case, some deceleration of the flow occurs, particles and drops cannot strictly follow the streamline due to the inertia of their own mass, they are displaced, and particles and drops are deposited on the surface of the partition. The liquid droplets deposited in this way flow down the partition in the form of a film, washing away the settled dust particles. Thus, the gas, entering the drop-catching device, undergoes additional purification due to interaction with the liquid film retained on the perforated filter partition. Further, under the action of gravitational forces, the liquid with the trapped dust settles in the bottom of the apparatus.

The proposed device for gas purification allows:

- increase the efficiency of gas cleaning;

- increase the reliability of work;

- increase the degree of purification of the gas flow without the use of additional equipment;

- reduce metal consumption and design complexity;

- reduce the cost of the cleaning process;

- simplify the design of the device.

Claims (1)

Apparatus for wet gas cleaning, containing a cylindrical body with a conical bottom and nozzles for the outlet of purified gas and sludge, a device built into the body, consisting of a suction chamber, a confuser and a neck, a nozzle and a droplet catching device, characterized in that the droplet catching device is a diffuser, mounted in the lower part of the neck with an opening angle equal to the angle of the nozzle spray, and made of a perforated filter wall having a hole diameter commensurate with the size of the sprayed liquid droplets.

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