DE1471621C - Process for separating finely divided, solid substances from a gas flow - Google Patents

Description

The invention relates to a method for separating finely divided, solid substances from gas streams, in particular such gas streams that arise in the production of hydrogen halides.

In recent times, the problem of industrial waste disposal has become more and more important. Numerous Countries have enacted regulations prohibiting the release of such gases into the atmosphere, provided they have not been freed from toxic and / or disruptive components. The components to be separated from industrial exhaust gases can be gaseous, liquid or solid substances, or they can Compounds included in a plurality of such forms. In numerous cases, the process depends on how to effectively remove these unwanted ones Components depend on the physical form in which they are present in the exhaust gases. Accordingly the most diverse processes for the separation of these impurities from exhaust gases applied.

Difficulties often arise when separating finely divided, solid substances from industrial waste gases. For example, solid impurities with a particle size of about 5 μm or less are such as Fly ash and / or metal salts that are developed during the combustion of carbonaceous substances, particularly difficult to separate from exhaust gases in a technically economical manner. For the effective separation of such solid impurities from them It is generally necessary to add highly effective air filters or electrostatic precipitators to gases use. It is true that both of the above methods are generally effective with respect to the effective ones Separation of the solid substances in question, but none is completely satisfactory. The high efficiency air filters generally require one relatively expensive filter material, which must be replaced frequently, so that the particles collected from this can be separated. During this regeneration of the filter, the treatment of the Gas either be interrupted, or an additional filter must be provided if the Wants to carry out cleaning continuously .'- Since the solid particles collect on the filter mass, there is also a significant pressure drop across the filter (cf. Austrian patent 51463, German U.S. Patent 643 552 and U.S. Patent 2,871,977). Electrostatic precipitators do have not this latter disadvantage, but the acquisition costs of such systems are considerable. Besides that the deposition of the solids must be interrupted when the precipitated solids Particles should be removed from the separator, or it must be during this separation of the precipitated Particles another separator may be provided. ■. ·. · ■

It is also known to clean gases by wet means and thereby undesired gaseous, liquid or to wash out solid components. In such processes, baffle plates are used against which the laden gas stream is directed (U.S. Patent 2,227,465). Adhering to the baffle plates Particles can be washed off with water according to the method of U.S. Patent 2,916,267 will. A considerable amount of liquid is required here. This is more valuable for extraction Components in the gas to be cleaned are disadvantageous as only very dilute solutions or dispersions these components can be obtained, which require extensive work-up procedures.

Wet cleaning of gases is also known from US Pat. No. 2,057,579. Here is a gas stream brought into contact with sprayed water and then horizontally through several series-connected, vertically arranged filter elements by means of a behind the filtering device arranged suction device out. The individual filter elements are installed inside and on the back (in Gas flow direction) is sprayed with a liquid that is circulated. The one from the gas stream Washed out or filtered out particles always get back onto the filter. this is to a large extent disadvantageous, since in particular very small particles with the washing liquid also on the Reach the back of the filter, dry after the liquid has evaporated due to the prevailing negative pressure and finally get carried away by the gas flow and get back into the open, which was originally should be avoided. For this reason, this method is not suitable for cleaning Gases with complete separation of undesirable, especially finely divided components, which in particular ' which are to be reused and / or further processed.

The object of the invention was therefore to provide an improved process for separating off solid impurities to make available with a particle size of less than about 5 μΐη from gases, moreover can be carried out continuously without the need for a second separation device.

This object is achieved by the invention.

The invention therefore provides a method for separating finely divided, solid substances with a Particle size below about 5 μΐη from a gas stream, according to the first sprayed a liquid in the form of a mist into the gas stream to be cleaned and then the gas flow is passed through, partly in countercurrent to the gas flow direction Washing liquid acted upon filter is passed, which is characterized in that as a filter Filter media are used that have a larger pore diameter than the largest particles, in general.

mean 5 to 100 μπι, and that the in on known way using a pressure fan from the gas in a vertical. Direction flowed towards Filters are sprayed with scrubbing liquid in cocurrent and countercurrent to the direction of flow of the gas.

The use of a pressure fan in connection with a vertical outflow of filters is known per se in gas washing towers (German patent 404 580).
In the process according to the invention, the finely divided, solid substances are completely converted into an aerosol. As a result, they increase in size and can be washed out of the gas stream more easily than by previously known methods and also with relatively small amounts of liquid. When

Another advantage is that this results in considerably more concentrated solutions or dispersions of washed out particles than was previously possible. However, it is particularly important that the process can be carried out continuously, since the filter element regenerates automatically.

The procedure is explained in more detail below. When performing the inventive method

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If the gas to be treated contains the aforementioned size of not more than about 5 μm, a gas containing solid particles is then treated with a combustion product of halogenated organic such that the solid particles in the gas are in a compound and contain hydrogen halides, suspended in liquid and converted into an aerosol, it may also be desirable to absorb the hydrogen halide, the particle size of the solid particles 5 being absorbed from the gas and being more than approximately 5 μm in size. Then the gas will be able to separate the product. For this purpose, the aerosol formed can contain, through a filter, the gas through an absorber, e.g. B. a filling leads, the pores having a diameter of more body absorption columns lead. Preferably as about 5 μm. When passing through the filter when treating such combustion gases, the aerosol is separated from the gas. The temperature of the filter can be around 800 ^° C. The surface of the filter, with which the gas first comes into contact through a direct contact cooler, is conveyed to a liquid in which it is quickly brought together to around 100 ° C to form. this contact takes place preference of the desired. aerosol is cooled. Then, in cocurrent with the gas stream. the top is the gas containing the aerosol by area of the filter, from which the gas out after the transit _l5 an absorption tower, the outlet with packing material is filled with a second liquid. The is brought together in this absorption tower. This contact takes place, preferential hydrogen halide is separated and in an aqueous manner in countercurrent to the gas flow. This separation of the hydrogen halide is transferred. At the separator can normally solid parts, in particular the production of the aerosol presumably form the special with a size of less than about 5 μΐη, ₂ o small solid particles of germs from which the liquid does not separate. As gases which, according to the invention particle, are toughly bound. Several solid according to methods can be cleaned, grain particles with the water particles can also for all gases in question, the finely divided solid impurities flow together. Thus, the Vergung according to the invention is included. Examples of such gases are not limited to any specific physical form of the aerosol in the combustion of carbon-containing compounds. In general, fertilizing, and in particular finely divided or non-bulk liquid, is the process for bringing a liquid together that occurs in the above-described active carbon-containing compounds and gases. - With the gas being used, water.

The process of the invention is the aerosol has also Once formed in the gas and a particular value, where appropriate, products the solution of the hydrogen halide in the treatment of combustion ₃₀ which is separated from the combustion of halogenate from the gas, the gas, which apply the Aero organic compounds . Examples of the sol contains, passed through the filter, the pore-like compounds of which are hexachlorocyclopentadiene, a diameter of more than about 5 μΐη and in hexachlorobutadiene, octachlorocyclopentene, hepta- generally a size of about 10 to 20 μΐη or chlorocyclopentene, benzene hexachloride, trichlorobene ₃₅ even have 100 μπι. Preferably, the filter is zole, tetrachlorobenzenes, trichlorophenols, penta-a pillow or a bed of woven or knitted chlorophenol, chlorotoluene, chlorobenzyl chlorides, chlorine metal fibers or plastic fibers. Benzoyl chlorides for preparing chlorinated aliphatic carboxylic these woven or knitted pad can acids, sulfur-containing chlorinated organic encryption variety of filamentary materials used werbindungen such as chlorinated thiophenes and thio ₄ o to, for example corrosion-resistant steel, nickel, AIuphenoxide, chlorinated low molecular weight aliphatic minium , Copper, brass, tantalum, polyamides, poly compounds such as carbon tetrachloride, chloroethylene, polyester, polyacrylic compounds, polyform, trichlorethylene, perchlorethylene, hexachloro tetrafluoroethylene or glass fibers. The fibrous material used for the filter ethane, tetrachloroethane and the like, as well as the fluorinated ones, depends of course on the bronized and iodized analogues and, in particular, on the type of gas to be treated. At the hand * - their mixtures. of a gas produced by the combustion of halo

Such combustion products contain charcoal-genated organic compounds is obtained,

Dioxide, hydrogen halide, and substantial amounts will give excellent results with a holing

of metal compounds such as ferric chloride and / or containing pillows made of knitted polyethylene fibers

Iron oxide. The latter substances are very well preserved. For this reason, such a material

finely divided state before, e.g. B. preferred in a size of rial in the method according to the invention,

less than about 5 μm, ζ. B. 0.1 μπι. When passing through the aerosol-containing gas

According to the method according to the invention, the particles of the aerosol are hit by the cushion Gas, the solid particles in a size of at most on the fibers of the pillow and flow on them contains about 5 μΐη, treated in such a way that the solid fibers 55 together, separating them from the gas particles suspended in a liquid and separate into one that passes through the pillow. on Aerosol are transformed in which the particles in this way a separation of the aerosol will have a size of more than about 5 μm. This aims. When the gases pass through the pillow Treatment can be in any suitable manner and will affect the surface of the pillow with which the gas first comes into contact with the liquid using suitable devices and Combining a gas with a liquid, preferably in cocurrent with the gas flow in such as gas scrubbers and / or absorbers, carried out brought into contact. Similarly, the will. The contact between the gas and the 'surface of the pillow from which the treated gas Liquid should be such that the desired emerges after passing through the material, Forms aerosol in the gas. This is preferably done 65 also with a liquid and preferably im by bringing the gas into contact with finely divided liquid countercurrent to the gas flow, Bringing particles together, for example by In this way, a continuous Abtrendas Passing gas through a liquid spray zone. tion of the precipitated aerosol from the

Pillow is achieved, and there is no significant exposure or any other fluid can immediately pass through Collect these particles in the pillow. Any suitable pipes are routed into the nozzles and onto the top and bottom Contact fluid can be sprayed to treat the top-bottom surface of the bed or pillow surfaces of the pillow can be used. From becoming. One end of the device 20 has For economic reasons, water is preferred. In addition to 5 a liquid outlet 23, so that the bed however, liquids such. B. dilute or pillow 21 contacting liquids from the alkaline solutions, such as caustic soda, are used to be drawn off inside the device 20 will. To treat the two surfaces of the can. Preferably the bottom of the device is Cushions can be the same or different 20 inclined towards this outlet to allow for removal Liquids are used. To support the simplicity io of the liquid. The device 20 However, for the sake of loading the same liquid is still with an open section 25 negotiation used on both surfaces. In the event of an accident, the gases from the suction fan 19 should be turned into dilute solutions of alkalis enter next. This open space is used to Treatment of the surfaces of the: cushion relieves the pressure of the gases within the device from this Liquids preferably "equalize with that 15, so that a more uniform gas flow Surface of the pillow brought together with which is obtained by the bed or pillow 21. Even that Gas comes into contact first. It has been firmly understood that other institutions can add to this provided that when using dilute alkali pressure equalization can be used, for example solutions for treating this surface by removing the gases from the suction fan 19 instead No alkali is entrained into the gas cushion 20 into the bottom in the side of the device 20 passes through the pillow. However, if directs. "

the surface of the cushion from which the gas comes from- example

comes into contact with an alkali solution

is, 'can sometimes be a small amount of alkali in an oven about 193 kg an hour

get carried away by the gas. Then it can generate 25 chlorinated organic waste gas that comes from about it may be desirable to pass the gas through a second filter that is made up of 20% carbon and about 80% chlorine and is connected in series with the first one. contains a significant amount of iron in the presence

The amount of liquid with which the pillow is loaded from about 136 to 227 kg of steam of about 4.9 at and If moved, 299 kg of air can be burned within wide limits. An exhaust gas is obtained can be varied. All that is required is a 30 essentially sufficient of approximately 159 kg / h of chlorinated water Amount of liquid to be used for stoff, 142 kg / h carbon dioxide, 230 kg / h nitrogen and there is a practically continuous removal of the lower residual steam and oxygen with traces of carbon-coated particles of the aerosol from the pillow to form monoxide. In addition, there are significant effects in the exhaust gas. The exact amount of iron chloride and / or iron oxide used in borrowed Liquid depends of course on the surface of the 35 very finely divided form with a particle size of Cushions as well as the amount of the aerosol in not more than about 5 μΐη available. This gas treating Gas off. ■■ · '. ■■' ■ shaped combustion product is at a Tem-Das The method according to the invention can be carried out at a temperature of about 800 ° C. in the head of the direct device carried out according to the drawing contact cooler 26 initiated and there with a will. 40 water spray, brought into contact with the This occurs when the semi-cooler is burned in an amount of about 34,070 l / h organic compounds in an oven. By touching the gas with the Combustion products formed in the direct water spray dissipate the gas within approx contact cooler 26 of a water contact device, cooled to about 100 ° C. for a second. The iron, -the here in two parts, namely a direct cone 45 form chloride and / or iron oxide particles in the gas cycle cooler 26 and an absorber 18 is shown. in the water vapor an aerosol with a particle size The direct contact cooler 26 is at its top of over 5 μΐη. The aerosol becomes the cooler 26 End provided with an inlet through which the contained gas through outlet 28 into the ground Gases are introduced from the furnace. Next, the absorber 18 leads, in which it is in countercurrent ... he water sprayers 27 and at the bottom 50 is brought together with water that is in the an outlet 28. This outlet 28 is in the head of the absorber in an amount of about binding with the bottom of the absorber 18, which is introduced at 68,000 l / h ". Hydrogen chloride in the gas an inlet at its upper end is absorbed by the water and at the bottom the pre-through the water for contact with the gases is withdrawn from the device. The ferric chloride and / or to be led. The absorber 18 is attached to a suction fan 55. Iron oxide particles remain in the gas as an aerosol. 19 connected to the gases from the absorber. The gas containing this aerosol is then fed into the deduct. The suction fan 19 is introduced into connection chamber 25 of the device 20, from which with the device 20 which provides the means for moving it upward through the pillow or bed 2.1 in Contains separation of the solid matter from the gas, so the chimney 24 flows. Water in a total amount that the gas through the suction fan 19 from the exhaust 60 of about 2725 l / h is in approximately equal proportions sorber 18 peeled off and into the interior of this one on the top and bottom of the bed or pillow direction is guided. , 21 sprayed. The ones from the gas in the passage

. Inside the device 20 is a filter in the form of a solid part separated by the bed or pillow of a bed "or pillow 21 arranged so chen are essentially continuously, that the introduced into the device 20 gases 65 wash and through the outlet 23 at the bottom of the through this bed or pillow 21 to the fireplace 24 container 20 removed. That through the chimney 24 stream. Above and below the pillow or flowing gas contains nitrogen, carbon dioxide, Spray nozzles 22 are arranged in the bed 21. Water water vapor and traces of carbon monoxide. It

holds practically no hydrogen chloride and no solid particles of ferric chloride and / or iron oxide.

Claims (1)

Claim: ■ ■ ^: ■ ■ ■ ■ '■ ■ ''■ / Process for separating finely divided, ^ solid Substances with a particle size below about 5 μm from a gas flow, according to which a liquid in Nebelfonn sprayed and then the gas flow through with partly in countercurrent the scrubbing liquid directed to the direction of gas flow is passed through a filter loaded with it, characterized in that filter media are used as the filter, which have a larger Pore diameters as the largest particles, generally S to 100 μm, and that in a manner known per se using a thin fan from the gas in a vertical position Direction of the flowed filter in the same and .Currently sprayed with scrubbing liquid countercurrent to the direction of flow of the gas. 1 sheet of drawings 109 651/74