CS220249B1 - A method for purifying gases from solid, liquid or gaseous impurities and apparatus for carrying out the process - Google Patents

Abstract

In the method of cleaning gases from solid, liquid or gaseous impurities, the washing liquid is sucked into the neck of the Venturi tube by the influence of vacuum, both through the lower slot connected by a channel to the reservoir of this liquid, and through the upper slot connected to the inlet chamber, where the washing liquid is transferred through the side channels from the collection chamber, into which it is carried by the gas flow from the diffuser. The device consists of one or two Venturi tubes, the functional parts of which, i.e. the neck with the lower slot and the upper slot with the respective connecting channels and diffusers, are placed opposite each other and obliquely in the reservoir of the washing liquid. It further contains a collection chamber placed between the diffusers, connecting side channels and inlet chambers in a horizontal plane at the level of the lower or upper slot, and one or a pair of plate grates of the floor in the device body, above which the end droplet separator is placed. Effective gas-liquid contact is achieved without the use of a pump, increasing the reliability of the entire operation.

Description

In a method for cleaning gases from solid, liquid or gaseous impurities, scrubbing liquid is sucked into the venturi throat by vacuum through both a lower slit connected to a channel with the liquid reservoir and an upper slit connected to a headbox where the scrubbing liquid is transferred through side channels from the collecting chamber into which it is carried by the gas stream from the diffuser. The apparatus consists of one or two Venturi tubes whose functional portions, i.e. the orifices with the lower slot and the upper slot with the respective connection channels and diffusers, are disposed oppositely and obliquely in the scrubbing liquid reservoir. It further comprises a collecting chamber disposed between the diffusers, the connecting lateral channels and the inlet trunks in a horizontal plane at the level of the lower or upper slot, as well as one or a pair of plate tray gratings in the device body over which the end droplet separator is mounted.

Efficient gas-liquid contact is achieved without the use of a pump, while increasing the reliability of the entire operation.

Giant. 1

The present invention relates to a process for purifying gases from particulate solid, liquid or gaseous admixtures and to a device for carrying out the process, and to a process for dispersing the liquid into the purified carrier gas at the most efficient point of the device without forced circulation.

Wet scrubbers and absorbers of various types and constructions are used to purify gases from particulate solid or liquid impurities as well as from gaseous impurities. Their common feature, besides the so-called level separators, is that they must be equipped with a pump to transport the scrubbing liquid into the elements allowing the liquid to be dispersed into the carrier gas containing these impurities.

The elements dispersing the scrubbing liquid into the carrier gas stream are shower systems, higher pressure spray nozzles or mechanical elements, for example rotary disk atomizers. In absorber columns, trays of different types, packings of different designs, or bulk beds of different types of bodies are used to contact the carrier gas with the absorbing liquid.

In level separators, the high velocity of the gas is used to disperse the liquid into the gas through a slot that directs the gas flow to the level of the scrubbing liquid from which the liquid is entrained and dispersed in the gas.

The basic condition for the high efficiency of separation of impurities from the carrier gas is the most perfect contact of the gas with the scrubbing liquid, i.e. that this contact takes place on the greatest possible interfacial area. Another basic condition for the high efficiency of solid or liquid particulate separation is the maximum relative velocity of the carrier gas and scrubbing liquid.

One of the most efficient types of particulate separators, even with respect to their very fine fraction, is a venturi in which the scrubbing liquid is dispersed into the carrier gas at its throat where the gas flow rate is greatest. Venturi tubes are known and used to inject high pressure scrubbing liquid into its throat through nozzles, either upstream or perpendicular to the direction of gas flow. Venturi tubes mounted vertically in the separators with free inlet of scrubbing liquid from the inlet chambers located in its confuser are also known. In this type, however, the relative velocity of the carrier gas and scrubbing liquid is not as high as the above-mentioned type, since the liquid is accelerated continuously by the gas prior to spraying in the nozzle through the gas stream. atomisation occurs at high speeds of both media.

Even lower relative velocities are achieved with surface separators, where the highest carrier gas velocity is used to entrain the scrubbing liquid from the surface, but its dispersion into the entire cross-section perpendicular to the direction of gas flow occurs only at its reduced velocity in the extended cross-section.

In some cases, it is necessary to separate the gaseous impurities from the carrier gas either simultaneously with the particulate admixtures, or subsequently to separate the gaseous impurities by absorption, which, however, can be performed at a gas flow velocity of less than about 2 m. with. It can be carried out in a column with one of the above elements allowing the carrier gas to contact the absorbing liquid. However, at higher gas velocities, i.e. in cases where shorter contact time is not detrimental, there is undesirable excessive carry-over of the absorption liquid back to the top of the column for packed and loose bed columns and for bunker columns from lower to upper floors, or column congestion occurs.

According to the present invention, the method of purifying gases from solid, liquid or gaseous admixtures is characterized in that the scrubbing liquid is sucked into the neck of a Venturi tube which is inclined above its level in the reservoir so that the liquid is sucked from the reservoir through the orifice at a high flow rate of the purified carrier gas through the bottom slot formed over the entire width of the bottom wall of the throat and through the channel connecting the bottom slot with the liquid in the reservoir and extending below its level; from an inlet chamber formed above this wall, to which the scrubbing liquid is transferred through side channels from the collection chamber to which it is carried by a stream of gas exiting the venturi diffuser and directed obliquely to the level in the reservoir, the upstream of the scrubbing liquid is from the bottom slot and the top slot perpendicular to the direction of flow of the purified carrier gas through which it is atomized.

The principle of the apparatus according to the invention consists of one or more Venturi tubes whose functional portions, i.e. the neck with the lower slot and the upper slot in the lower and upper walls of the neck with the respective connecting channels and diffusers, are the scrubbing liquid reservoir positioned at an angle to each other at an acute angle to the surface, the apparatus further comprising a collecting chamber disposed opposite or between diffusers, connecting side channels from the inlet chamber formed in the horizontal plane of the apparatus at the level of the upper slot and / or the lower slot; a pair of plate tray gratings inclined obliquely in the vertical body of the device, which also houses the end droplet separator, as well as an inlet chamber for the supply of fresh scrubbing liquid.

The advantage of the cleaning method according to the invention and the apparatus for carrying out the method is to achieve effective contact of the scrubbing liquid with the gas to be cleaned from the use of the pump, whilst eliminating the risk of blocking the scrubbing liquid and clogging of the separator. This arrangement also eliminates the possible decommissioning of the separator.

A further advantage of the arrangement according to the invention is that the flow of the media on the individual trays allows for better separation and maintenance of high efficiency even on the higher trays, since the backflow of scrubbing liquid to the next higher tray is prevented.

Thus, the scrubbing liquid is dispersed into the gas to be cleaned at the beginning of its maximum velocity section in the venturi, perpendicular to its direction of flow, thereby achieving the highest relative velocity of the two media.

In order to increase the gas velocity and thus reduce its dimensions compared to the prior art separators, in order to increase the gas velocity and to reduce its dimensions compared to the prior art separators, oriented downwardly from the horizontal plane of the separator as described above, allowing the bulk of the scrubbing liquid to be separated from the gas into the chambers in the housing shell, where it is led down either to the lower deck or to the scrubbing liquid reservoir, to the upper floor or prevent flooding of the separator or absorber while minimizing the load on the final droplet separator.

The inclined gratings of the floors of the device are mounted in the body such that their lower edges lie on the overflow wall of the collecting chambers formed in the housing of the body and their upper edges are suspended on the overflow walls of the inner inlet chamber, the wall of the inlet chamber in the casing of the body with respect to one tray grate.

The inner inlet chamber of the pair of tray gratings may also be in a lower horizontal plane than the collecting chambers in the upper body shell housing, thereby accelerating liquid overflow from the tray to the tray, and the connecting channels of these chambers in the side walls of the housing are inclined to the inner inlet chamber. From the collecting chambers or from the connecting ducts in the housing of the device body, as mentioned above, part of the scrubbing liquid can be drained from each tray to the separator reservoir without passing through the next lower tray through a connecting line in which a control valve is included to adjust the amount short-circuit fluid outflow from the palate.

In the drawings, four examples of a combined separator and absorber according to the invention are schematically depicted, wherein: FIG. Fig. 1 is a single-stage scrubbing liquid self-priming device; in Fig. 2 a two-stage combined scrubbing device, also with a scrubbing liquid self-priming to a first stage and a circulating scrubbing liquid inlet via a pump from a separator reservoir to a second stage; equipment. Fig. 3 shows a single-stage scrubbing liquid self-priming device with one venturi tube and one inclined tray plate grate; Fig. 4 is a two-stage scrubbing liquid self-priming device.

The carrier gas with the admixtures is fed to the single-stage device (see Figs. 1 and 3) through the inlet orifices 1 via the confusors 2 to the orifices 3 of the Venturi tubes, where it acquires a high velocity thereby creating vacuum there. with the lower slits 4 sucking scrubbing liquid through the channels 5 into the nozzles 3 of the Venturi tubes, where it is sprayed, then proceeds to the diffusers 6. Upon exiting the diffusers 6, the gas entrains the scrubbing liquid from the wall 8 into the collection chamber 9 and where it flows in planes diverted downward from the horizontal planes of the device body 11, it entraps the entrained liquid into the inlet chambers 12 in the housing of the device body 11.

The cleaned gas, which is largely free of scrubbing liquid, flows from the grates of the tray 10 through the device body 11 upwardly through the end droplet separator 13 where it is free of the remainder of the entrained scrubbing liquid droplets and exits through the orifice 14. The scrubbing liquid carried by the gas streams exiting the diffusers 6 into the collecting chamber 9 is discharged via side channels 15 into the inlet chambers 12, from where it is also sucked through the top slot 21 into the nozzles 3 of the venturi. gas spray. The chamber 16 of the tray grates 10 serves as an inlet chamber with partial or total flow of scrubbing liquid through the separator or absorber.

In the body 11 of the two-stage device according to the invention (see FIGS. 2 and 4) there is at least one tray with one or a pair of tray gratings 10 to which scrubbing liquid is fed through the inlet chamber 16 of the top tray 10 from a container 7 with all or part of it by recirculation by means of a pump 17.

The two-stage apparatus can also be operated with a full or only partial flow of fresh scrubbing liquid, which is also fed into the inlet chamber 16 of the top floor 10. From the collecting chambers 18 of the second stage of the apparatus, through the valve 20 outside the separator.

Claims (4)

FftKDMET CLAIMS 1. A method of purifying gases from solid, liquid or gaseous admixtures, characterized in that the shut-off liquid is sucked into the neck of the Venturi tube obliquely positioned above its surface in the reservoir so that the liquid is sucked from the reservoir under vacuum. through the nozzle at a high flow rate of the purified carrier gas, through a bottom slot formed over the entire width of the bottom wall of the throat and through a channel connecting the bottom slot with the liquid in the reservoir and extending below its level; a throat wall from the inlet chamber formed above the wall where the scrubbing liquid is transferred through side channels from the collecting chamber to which it is carried by a gas stream exiting the venturi diffuser and directed obliquely to the level in the container, the orifice is perpendicular to the direction of flow of the purified carrier gas through which it is atomized. Method according to claim 1, characterized in that the purified carrier gas and scrubbing liquid on each floor flow in planes diverted downward from the horizontal plane of the vertical body of the device towards the collecting chambers into which the scrubbing liquid is collected and guided after its separation from the gas. through the lateral channels into the inlet chambers of the lower level tray, the gas free of most of the scrubbing liquid then flows upwardly in the body of the device to the next tray. vynalezu Device for carrying out the method according to Claims 1 and 2, characterized in that it consists of one or two Venturi tubes, the functional parts of which are the orifices (3) with the lower slot (4) and the upper slot (21) in the lower ones. The scrubbing liquids (7) are placed opposite to each other and at an acute angle to the surface, and from the collecting chamber (9) placed against the diffuser, as well as from the upper walls of the throat (3) with respective connecting channels (5) and diffusers (6). (β) or between diffusers (6), connecting side channels (15) and inlet chambers (12) formed in the horizontal plane of the device at the level of the upper slot (.21) and / or lower slot (4), further from one or a pair plate tray gratings (-110) obliquely housed in the vertical body (11) of the device, which also houses the end droplet separator (1.3), and from the inlet chamber (16) for the supply of fresh scrubbing liquid. Apparatus according to claim 3, characterized in that at least one tray (10), consisting of one or a pair of inclined plate gratings, of the respective inlet chambers (12), is arranged downstream of the first stage of the device in the body (III). side inlet ducts (1S) and collecting chambers (18), the inlet chamber (16) for supplying fresh scrubbing liquid or for circulating scrubbing liquid by means of a pump (17) is located above the top floor (10) and the collecting chamber (18) are provided with bypass ducts (19) with control valves (.20) for draining the scrubbing liquid into the reservoir (7).