DE442166C - Process for the production of volatile acids, acid anhydrides and chlorine - Google Patents

Description

Process for the recovery of volatile acids, acid anhydrides and of Chlorine. The present invention relates to the recovery of volatile acids, acid anhydrides and of chlorine by decomposition of the corresponding salts or compounds in the Heat and is characterized by the fact that the starting materials in question are used alone or heated under the action of suitable substances on the hearth of a flame furnace, but in doing so the gaseous products are discharged through the hearth while one lets the fire gases go a different way.

an avoids the 2 disadvantages in the process, which arise from mixing the products to be manufactured with fire gases in the shaft furnace or in the normal flame furnace operation. Likewise, in many cases where retorts must now be used, the chemical, thermal and economic disadvantages of retorts can be avoided. The oven lining and the oven construction must be selected appropriately for each case.

In general, the permeability of the hearth is achieved through Making () openings or using a sole material that is sufficiently porous is to offer a way for the gases and vapors to be discharged downwards Resistance does not rise to harmful levels.

The gas flow required for your new furnace operation, partly through the stove downwards, partly above the stove to the outside, adjusts itself if you only give a suitable pressure, because the gases always flow from higher to lower pressure. For example, a pressure of 50 mm water column is given in the furnace chamber, 70 mm water column in the air and gas supply lines, in an auxiliary line for any necessary water vapor with 15 mm 27 and a control valve 3 atm. Pressure equal to 30,000 mm water column, under the stove 30 mm water column. The success is observed and, by changing the pressure, the condition is approached in which as much gas flows down as is developed by the charge.

Of the many applications of the present invention to many A few areas should be presented as examples for explanation.

A. Representation of a for the production of sulfuric acid or sulfur trioxide suitable mixture of sulfur dioxide and oxygen.

It is known that gypsum or anhydrite give off SO, in the glowing heat, especially easy to mix with clay. SO; is dissociated at high temperature, but forms the basis for the formation of sulfuric acid. The technical execution of the Reaction offers the convenience of one besides the difficulty of the oven lining great dilution of the SO gas, if one does not want to work in retorts.

The evils are lifted when you put the raw materials on the ground a flame furnace and heated according to the invention, the resulting gases down dissipates while the furnace gases take a different route. Deliver this way the starting materials good gases, almost SO = plus O. From that one can very easily form sulfuric acid by the contact method or the chamber method, probably already for the most part in the Gloverturm. Also fuming sulfuric acid and sulfur trioxide are easily produced.

The hearth of the flame furnace is expediently made of cement clinker with suitable Permeability established, because the solid residue of the reaction is a valuable one By-product, with sufficient heating cement. One can make the reaction easier by spreading water vapor over the hearth and through the source materials leads.

There are also other sulphates than gypsum and anhydrite which can be found in decompose in the heat. These can also be treated in the manner described.

B. Representation of hydrofluoric acid. The current expensive and cumbersome kind The invention makes the preparation of hydrofluoric acid much easier.

Fluorspar decomposes in the heat with water vapor. So you can Heat fluorspar chunks or flour on the bottom of a flame oven and pass steam through them. The water vapor can be obtained by burning hydrogen or water gas or by get ordinary lead. The hydrofluoric acid gas is discharged through the soil, so that it is not diluted by the flame gases. The base of the furnace can be left out make iron grates or plates on which a layer of calcium fluoride lies, which remains unieretzt. With the chosen route it is possible to use the furnace from silicic acid Manufacture building material. The advantages of the procedure appear palatable. -You save all the sulfuric acid, gets burnt lime instead of gypsum and probably needs it no more heating than is now necessary for retort heating.

The exposed fluorspar layer at the bottom of the furnace can be used as a plaster be carried out, d. H. the chunks of stone become vertical with the longest extension posed. Instead of the iron grate, an openwork fluorspar vault can also be used to serve.

C. Process for the preparation of hydrochloric acid.

Even more easily than calcium fluoride decompose with water vapor many chlorides. The conversion of magnesium chloride into hydrochloric acid is very well known and magnesia. One has been able to accomplish it on a large scale by using magnesium chlorine id and magnesium oxide converted into a solid solution of magnesium oxychloride and the oxychloride was then heated with steam in shaft furnaces. Only a few remain Percentage of chlorine in the mass, which, in part, is used to stiffen magnesium chloride solution is used.

In the same way, chunks of basic magnesium chloride could be used decompose in the furnace. An iron grate to drain the hydrochloric acid downwards would of course be avoided, but you can use silicic acid-containing building materials use braided stones or porous stones, but also magnesia stones if the Cooker sole is kept hot.

One can use the cumbersome intermediate process of solidifying the magnesium liquor Avoid using magnesium oxide if the lye is sprayed in fine drops into the flame furnace and designed the device so that a coherent cake at the bottom of the Vessel cannot arise. One way of doing this is to mechanically break the Cake by scratching or by uneven movement of the oven sole (agitator). The residue from hydrochloric acid production can be used in consideration of the intended use can be dechlorinated as far as desired. Partially dechlorinated residue can be refractory Shape stones.

D. Presentation of chlorine. When using -anhydrous magnesium oxychloride or chloride as under C on the bottom of a flame furnace, but not with water vapor, but treated with air (oxygen), chlorine is obtained (as in the Pechiney process). Other chlorides that decompose with oxygen can also be processed in the same way will.

Claims (5)

PATENT CLAIMS: i. Process for the production of volatile acids, acid anhydrides and chlorine by decomposing the corresponding salts or compounds in the heat, optionally with the addition of steam, excluding the special type of heating according to Patent 407 72q., Characterized in that the starting materials in question are at the bottom of a furnace heated alone or with the supply of suitable substances and the gases formed are discharged through the hearth base, while the fire gases take a different route. 2. The decomposition of sulfates according to claim i using a cement clinker hearth base. 3. The production of hydrofluoric acid according to claim i using a hearth base made of a loose plaster of fluorspar chunks. q .. The method according to claim i with the generation of the water vapor by burning hydrogen or water gas. 5. The method of claim i introducing the compounds to be decomposed in the molten or dissolved Conditions under atomization.