FI66762C - OVER ANCHOR FOR OVER RELEASE AV GASBLANDNING OC OCO AVLAEGSNANDE AV VAETSKEDROPPAR UR DESSA - Google Patents

Description

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Patent-och raglttarityraltan '' AnMun uth * d odi «aXteMprtAnrad 31.08.84 (31) 03) (31) mmMum Ι <ΙΝ prtote 30.06.77 France-Frankrlke (FR) 7720097 (71) Rh6ne-Pou1enc-lndustries, 22 Avenue Montaigne, Paris - 8e,

France-France (FR) (72) Claude Djololian, Maromme la Maine, Gerard Lagrange, Bois Guillaume, France-France (FR) (74) Berggren Oy Ab (54) Method and apparatus for washing and removing droplets of gas mixtures - Forfarande och This invention relates to a method and an apparatus for washing and removing droplets of gas mixtures therefrom, and for removing gas droplets from a gas tank.

Finnish patent FI-62 228 discloses an invention which provides a solution to the technical problem which arises every time a soluble gaseous compound, for example sulfur dioxide, a fluorine compound such as hydrofluoric acid or silicon trifluoride, has to be absorbed into a liquid; and is particularly suitable for the treatment of gas mixtures containing small droplets, for example P205 droplets, for absorptions followed by a chemical reaction, and for treatments requiring less than the theoretical level.

The theoretical level (cf. "Les procedes de rectification dans 1'Industrie chimique", ed. A. Paris, ed. Dunod) or, more generally, the complete alternative is when the media leaving it are in thermodynamic equilibrium.

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In general, the absorption problem is solved by means of intermediate bottom columns or also packing columns; but when the absorption involves a reaction and can cause fouling and requires less than the theoretical level, empty columns are preferably used. In simple countercurrent type empty columns, the absorption is often insufficient with respect to the size of the equipment; cyclone columns are also known, and the invention relates to this type of apparatus in which the vortex movement of the gases is effected by feeding them tangentially to a cylindrical column and the purified gases are removed either in the axial or tangential direction.

In existing devices of this type, the gas stream is irrigated by spraying a liquid into it. In order for the absorption to be effective, the dispersion is known to be as good as possible, i. that it must be carried out on a type of equipment with level-type atomizers. The droplets are then very small and the absorption very efficient; however, the gas velocities used and the fineness of the droplets cause a strong entrainment of the droplets, which must be removed in the accessory. In another known cyclone scrubber, horizontal jets located horizontally and fed with a liquid at high pressure provide excellent dispersion (e.g. in U.S. Patent No. 3,505,788).

However, in known devices, the number of small water droplets entrained compares with the quality of dispersion, and thus the absorption, and often two devices are needed to meet these two opposing requirements and achieve an acceptable result.

The object of the invention of patent FI-62 228 is to provide the absorption of a gas containing soluble compounds in a single device and to obtain a purified gas which does not contain small droplets or dust.

Said invention relates to a column-type scrubber in which the gas flow is turbulent and the scrubbing takes place by spraying, and in the first scrubbing zone a combination of the vortex flow of gas and vertical top-down spraying is provided; then in the second zone, i.e. the droplet removal zone, the vortex gas flow and the column walls are made to act together 3 66762 so that the droplets are retained in the column walls as a liquid film. The second zone of the column, i.e. the droplet removal zone, is further supplemented by a ring positioned so as to retain the entrapped liquid film on the walls.

The device according to the present invention is characterized in that it comprises a prewash zone upstream of the tower gas inlet zone, in which the gas to be treated is accelerated and swirled and has second liquid spray means for washing the gas with the second liquid spray, and independent control means for first and second liquid spray pressure the pressure of the liquid spray is lower than that of the second liquid spray.

The pre-washing step is preferably carried out by means of a venturi funnel tube provided with a liquid injection device located upstream of the neck and at a small distance therefrom.

The injection of liquid in the prewash zone usually takes place by means of atomizers mounted so that the entire gas flow is in contact with the liquid.

The inhaler preferably selected from those having a plurality of small tubes that are set as the venturi circular cross-section beams, which are attached with the second side of the venturi cross section of a concentric, circular external tube and whose free ends are remote from the center.

In this embodiment, different lengths of tubes are preferably selected, ranging from small to large in such a way that the jets from the free ends cover the entire cross-section of the venturi.

In another embodiment of the spraying, the liquid is added through a plurality of holes from which jets vertical to the venturi axis leave. The following is a description of such embodiments.

Each washing zone has independent spray pressure control devices. The gas to be cleaned is introduced into the prewash zone, where small droplets are formed.

The gas stream containing small droplets is then directed to the bottom of the column, where it is given a vortex motion. It then enters the so-called cyclone column. in contact with a vertical liquid spray from top to bottom in the washing zone, the droplets of which are large in diameter and having a coalescing effect on the small droplets formed in the pre-washing zone.

The vortex stream of gas full of droplets containing soluble compounds then enters the free space of the cyclone column, i.e. the droplet removal zone. As in the process according to Finnish patent FI-62 228, the suspended liquid particles flatten on the walls when stopped by a ring and coalesce into a liquid which is recovered from the lower end of the column.

The liquid recovered from the lower end of the column is completely discarded in the general embodiment.

In the preferred continuous embodiment, the spray liquid is re-cycled and only a portion is discarded and replaced with an equivalent amount of make-up liquid.

The pressures of the liquid feeds are regulated as in Finnish patent FI-62 228, between 0.1 and 3 bar as a function of the desired droplet size.

As in patent FI-62 228, at least a second cyclone column of the same type can be connected in series with the cyclone column according to the invention, which is preferably placed above the first.

Liquids are recovered separately from the lower end of each device; the purified gas stream is recovered from the outlet of a cyclone column equipped with a prewash zone, or optionally from the outlet of the last cyclone column; this gas stream is practically completely free of soluble compounds, it contains no droplets or dust.

In addition, it is stated that the improvement carried out by means of the prewash zone results in an increased absorption of soluble compounds and thus a better absorption result. This result can be attributed, among other things, to the increase in the specific absorption surface, which in turn is due to the distribution of the liquid into very small droplets, which improves the diffusion in the gas film.

It has already been mentioned above that the quality of absorption into a liquid depends on the fineness of dispersion of this liquid, but that very fine dispersion causes the formation of harmful droplets. According to patent FI-62 228, absorption and removal of dust and droplets were performed in a single device.

The device according to the present invention improves the absorption without the disadvantage caused by the droplets. The results for the removal of both others, dust and droplets, are the same.

The following is a description of a preferred embodiment of the device according to the invention with reference to the figures, as well as variants thereof.

Figure 1 is a cross-section of a vertical cylindrical column 1 with an inlet pipe 2 according to the patent FI-62 228, from which the gas flow comes tangentially. The gases to be treated enter the part 2 after being fed at the point 2 'to the prewash zone, where they are given acceleration, strong turbulence and small droplets. Gases containing small droplets are subjected to a swirling motion in zone 3; they pass first through the washing zone 4, then through the empty zone 5, where the droplets are removed (before the gases are removed from the outlet 7. The liquids are recovered at the lower end 6 of the column, from where they are returned to the cyclers 8 and 8 '.

At point 8 ', the entry point of the washing liquid part to the prewash zone is seen, which according to the invention is carried out in the venturi 20, near the neck part 21, by a spray device 22. Additional water can be sprayed from point 8 "if necessary.

Figure 2 shows a detail of a preferred spray device 22 (1) located in a plane AA perpendicular to the venturi axis and close to the neck portion 21.

Fig. 3 is a section along the plane AA of the spray device 22 (1), which is supplied with the spray liquid by means of a pipe 8'a. At 23, there is a circular tube that feeds syringe tubes 24 and syringe tubes 25, each of which is 3. The number and dimension of syringe tubes can be selected according to the physical properties of the apparatus and the gas being treated without departing from the scope of the invention.

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Fig. 4 shows a section of a second spray device 22 (2), in which the washing liquid is fed from a point 8'b and the distribution takes place from a pipe 26 with 6 holes, only one of which is visible, 27.

Figure 5 shows a section of another spray device 22 (3), in which the washing liquid is fed from point 8 and distributed from the outer ring 28, from where it is fed to the venturi through holes, two of which are visible, 29.

By way of example, in the apparatus according to the invention of the type of Figures 1, 2 and 3, a gas mixture containing silicon tetrafluoride SiF 2 as the main impurity is treated.

It is noted that the exhaust gases contain less than 10 mg F / m3.

If the apparatus is operated without a venturi, the same gas

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40 mg F / m on exit.

In either case, they do not contain droplets or dust. Example 1

In the same apparatus as above, the gases from the cooling of the phosphoric acid dissolution tank are treated. Gas flow

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they have a background speed of 124,000 m / h and a temperature of 65 ° C when entering the 3 venturis, with a fluorine content of 250 mg / m.

The venturi has 6 wash tubes, each with a flow rate of 16.7 m / h, for a total of 100.2 m · 3 / h. The pressure drop is 185 mm from the water column. Operating pressure is 0.7 bar, gas velocity 50 m / sec at the neck of the venturi; the gases enter the column; the pressure drop is 60 mm from the water column; a spray ramp consisting of six sprayers feeds each sprayer

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meen 20 m / h.

The fluorine content of the exhaust gas is 6.9 mg / m3.

Thus, by installing the prewash zone on the upstream side of the cyclone column according to the improvement provided by the present invention, the washing result can be improved.

7 66762 Such an installation also makes it possible, with the same washing efficiency, to reduce the size of the cyclone column by reducing the height of the washing zone.

In addition, the number of columns in series can be reduced, as described in patent FI-62 228, and the same degree of purification can be achieved. It can therefore save on investment.

The combination of scrubber and cyclone column also has the advantage of simpler and easier piling to the ground in many cases.

The possibilities of using the improved device which is the subject of the present application are approximately the same as those of the patent FI-62 228; it is particularly suitable for the treatment of gas mixtures from a fertilizer plant or phosphoric acid solution vessels or for the emptying of phosphoric acid concentration vessels or for the removal of fluorine from gases coming from fluorosilicate plants.

Claims (10)

A scrubber-type device for purifying gases containing soluble products, comprising a cyclone tower (1) having a gas inlet zone (2) into which the gas to be cleaned is directed in a swirling motion upwards, a scrubber zone (4) above the inlet zone (2) having a first liquid atomizer ( 8) for washing the gas with the first liquid mist, a droplet removal zone (5) located above the washing zone (4), where the vortex gas flow cooperates with the wall of the tower (1) so that the droplets form a liquid film, and a gas outlet (7). ring located between the zone (5) and the degassing opening (7) in such a way that the liquid film does not attract the gas leaving the device, characterized in that the device comprises a prewash zone (20) upstream of the gas inlet zone (2) of the tower (1). causing it to accelerate and swirl and having second liquid spray means (22) gas for washing with a second liquid spray, and independent control means for independently adjusting the pressure of the first and second liquid spray so that the pressure of the first liquid spray is lower than that of the second liquid spray. Device according to Claim 1, characterized in that a part of the washing liquid of the cyclone column (1) is injected into the prewash zone (20). Device according to claim 1, characterized in that the prewash zone comprises a venturi tube (20) provided with a liquid injection device (22) located upstream of the neck portion (21) and a small distance V from said neck portion. Device according to one of the preceding claims, characterized in that the spraying of the liquid in the prewash step (20) is carried out by means of atomizers (22) arranged so that the entire gas flow is in contact with the liquid. Device according to Claim 3, characterized in that the atomizers consist of a plurality of tubes (24, 25) arranged in the same way as the circular cross-section radii of the venturi (20) and one side of which is an outer circular tube (22) concentric with the venturi cross-section. with their free ends spaced apart from the center. Device according to Claim 3, characterized in that the liquid is fed through a plurality of holes (27) from which the outgoing jets are perpendicular to the venturi axis. A method for purifying a gas containing soluble products, characterized in that the gas to be purified is introduced into a prewash zone (20) where small droplets are formed, then the gas containing small droplets is passed to the lower end (3) of the column, where it is vortexed. the gas stream is brought into vertical contact with a top-down liquid spray formed by droplets of larger diameters which coalesce with the small droplets formed in the pre-wash zone, a vortex gas stream is directed and recovering the scrubbing liquid (6) from the lower end of the column and the gas purified from dust, droplets and soluble compounds of improved purity from the upper end of the column (7). Method according to Claim 7, characterized in that all the recovered liquids are discharged. 8 66762 Method according to Claim 7, characterized in that part of the recovered liquids (6) is discharged and the remainder is returned to the cycle as a spray liquid (3, 8 ') and the amount removed is replaced by a corresponding amount of make-up liquid. Method according to Claim 7, characterized in that the pressure of the various liquid feeds is adjusted independently between 0.1 and 3 bar. '* 10 66762