DE2236030A1 - METHOD AND DEVICE FOR DRY CLEANING OF GASES CONTAINING FLUORIDES FROM ELECTROLYTIC ALUMINUM PRODUCTION - Google Patents

Description

Dipl..lng. H. MITSCHERLICH 8 MONC ^ EN 22

Dipl.-Ing. K. GUNSCHMANN steinsdorfsfraee 10

Dr. rer, nat. W. KÖRBER Dipi.-lng. J. SCHMIDT-EVERS

PATENT LAWYERS

A / S irdal and Sunndal Verk
Sjkreisedalsveien 6,

Oslo 5 / Norway

Patent application

Method and device for dry cleaning of the electrolytic aluminite extraction produces fluorides

containing gases

Vapors from electrolytic aluminum production cells contain significant amounts of fluorine in the form of Hydrogen fluoride and other fluorides, which can seriously pollute the surrounding air. One Recovery of the fluoride from the vapors is not only necessary to keep the air clean, but also advantageous from an economic point of view.

It is known that aluminum oxide has the property of taking up fluoride by absorption and adsorption and to tie. This property can be used to purify the fluoride-containing gases from the cells of the electrolytic Used to extract aluminum with the help of aluminum oxide whereupon the aluminum oxide containing the fluoride is returned to the electrolysis cells.

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In practice, this is done through. Passing the gases through a fluidized or mechanically supported layer of aluminum ^N oxide, whereupon the purified gas is passed through a filter together with the aluminum oxide particles. Said the cleaning of gas from an aluminum reduction plant involves very large gas volumes - in the case of gas from Sodeberg containers 10 to 15,000 Nnr / tons of metal - the gas must pass through a number of filters or cleaning units in parallel to separate the Dust. Alumina particles entrained in the gas have a very strong wear effect on the remainder of the device up to the filters. As a result, device parts, in particular curved parts, have to be replaced frequently, which makes the method unprofitable.

For a system with several filter units connected in parallel it is of great importance for the operational safety of the filters Meaning that gas and dust particles are as uniform as possible be distributed on each filter. Tests have shown that it is difficult to create a distribution guide (manifold) build up, which distributes the gas evenly on each filter unit. With the amount of dust that is compelled in the gas flow it is difficult, if not impossible, to design the distribution system in such a way that the amount of dust is uniform is distributed on each filter unit, even if the aluminum oxide is fed into the gas stream before it enters distribution occurs. An uneven distribution of the alumina-containing gas clogs some filters and increases the flow of gas other filters. This often results in breaks in operation and Cleaning work.

In order to get the gases through the aluminum oxide layer and then to the filters, a large pressure drop is required, usually Drip 50 to 500 mm of water. Applying and maintaining a Differential pressures mean great expense.

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Another aggravating factor is that the alumina In addition to binding fluorides, there are also sulfur compounds absorbed. The fluoride is bound very quickly, while the sulfur compounds are essentially very fast be tied slowly. Although the contact time between Aluminum oxide and the gases are very short} these stay in Contact with the aluminum oxide when it is led in lines up to the filters, so that there is then an undesirable binding of the Sulfur compounds takes place. If the alumina returned to the cells contains sulfur, it is very bad has an adverse effect on the electrolytic process, d. This means that the Straom yield is reduced and the anode consumption is increased.

According to the invention, these disadvantages with the help of a Dry cleaning process for fluoride-containing gases from the electrolyte cells for aluminum production, in which the gases brought into contact with aluminum oxide and then filtered are avoided by the fact that an aluminum oxide, which is highly reactive for fluorides, approaches the gases directly and not more than a meter in front of each filter unit or in the actual filter unit is added.

Venn an alumina with a low content of α-crystals is used, it can advantageously be used immediately in front of the filter unit are added to the gases.

In the practical implementation of the method according to the invention, especially when adding the aluminum oxide to the gases directly in front of the filter unit, the wear and tear is the Apparatus significantly reduced, especially if the gases after the addition of the alumina in a straight line to the filters or dust collectors flock. In addition, no pressure drop is necessary in the process according to the invention, with one exception a pressure drop in the filter, which means a considerable saving. When shortening the contact time between

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Aluminum oxide and the gas will bond the, Reached fluoride, but avoided the binding of the sulfur compounds. In this way, a fluoride-containing Obtain aluminum oxide, which is more suitable after recycling for the electrolytic process than that of the Previously known Beinig longitudinal process accumulating aluminum oxide. The difference between the pick-up point of the alumina in the gas and the filter is preferably less than one meter. The appropriate difference, however, depends on the reactivity of the aluminum oxide used. Venn an aluminum oxide with a low content of alpha crystals and presumably high gamma-rietallic content is used, a shorter reaction time is obtained than when the alpha crystal content is higher. A lower firing temperature results in the manufacture of the aluminum oxide to a product that binds fluoride gases better and faster. For such a product, therefore, are sufficient very short contact time; en, usually less than 0.5 seconds, for sufficient binding of the fluoride.

With most reactive alumina species, there is sufficient contact time when the alumina is through the head of the filter unit itself, e.g. B. a bag filter unit, with it along the bag wall against the gas flow falls.

The device used to carry out the method is characterized according to the invention in that distributors for the addition of the aluminum oxide to the gases are arranged approximately directly in front of each filter unit.

1 shows a device with a main line 1 for the introduction of the gases at one end 2, a series of lateral branches 3 from the main line, filter units 4 at the respective end of the branches and distributor 5 for the addition of aluminum oxide to the branches. Preferably are the distributors at a distance of less

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arranged as i m in front of the inlet #.

Mg. 2 shows a bag filler unit with a * .2iafS3a3? Iarigsoifnmig for the gases, bag 7, distributor 8 between the bags, ATalassöifaüiig 9 for the Aluaiiiimttoicid oiid ÄlslassöflSiuiig ΊΟ for the cleaned gas. in operation the Aliaainiumomd sprayed between the bags 7 aaaeh below and reacts so with the gas in countercurrent.

Claims (1)

Claims 1. Process for dry cleaning of fluorides containing Gases escaping from the cells during electrolytic aluminum extraction, the gases being brought into contact with aluminum oxide and being filtered, characterized in that an aluminum oxide with high reactivity to fluorides is almost directly associated with the gases and not more than 1 m in front of each filter unit or in the, Filter unit itself is added. 2. Device with one or more FiIt units for , Implementation of the method according to claim 1, characterized ge ^ indicates that the distributor (5) for the addition of the aluminum oxide to the gases is almost immediate and not is arranged more than 1 m in front of each filter unit (4) * 3 · Device according to claim 2, characterized in that the line routing between the distributor (5) and the filter unit (4) runs in a straight line. 4. Apparatus according to claim 2 and 3 * characterized in that that the filter unit consists of a bag filter (7,7), in which the distributor (8) is arranged so that in operation the alumina is directed into the bag filter housing itself and down between the bags (7) falls against the gas flow. The patent attorney 20988S / 1252