DE245235C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

^ PATENT LETTERING

CLASS 26 d. GROUP

Dr. HERMANN PÜNING in MÜNSTER i.Westf.

Patented in the German Empire on October 11, 1910.

The previous method for the preparation of sulfuric acid ammonium directly from the Dry distillation gases have multiple defects. They are: impurity of recovered sulphate, high plant costs, large energy requirements, inconvenient, cumbersome process and high operating costs. The previous methods can be divided into: i. in those where the gas is used for the purpose of

ίο tar separation before passing through Sulfuric acid is strongly cooled, 2. in those with which the coming from the ovens Gas is subjected to tar removal in a hot state and passed through the sulfuric acid bath. In the procedure of the first As a result of the cooling of the gas, all of the water vapor contained in it falls as ammonia-containing water except for a small residue. The well-known facilities: stills, lime pits, lime milk makers, pumps and Clarification ponds are necessary and large amounts of steam are consumed, all of which is associated with high costs is. In addition, there is a dilution of the sulfuric acid bath when it is introduced Avoid cooling and concentrating the vapors from the stills these vapors and a supply of heat are necessary for the saturation process. The resulting Facilities complicate and make the whole apparatus even more expensive. In the case of the second type of procedure, in which the tar is separated from the hot gases by mechanical means Insofar as the latter is sufficient at all, there are also considerable evils. The reason this is because there is not an absolutely suitable temperature point for this process gives. Because at temperatures above the dew point of the gases, the tar separation is insufficient and the salt obtained impure, at temperatures below this it is Admittedly sufficient, but even with a few degrees of cooling below the dew point, large ones fall Amounts of condensation water. Therefore, in order for pure salt to be obtained, formation must be achieved a considerable amount of condensation water must be taken into account. These amounts of water are used to bind the ammonia they contain in the sulfuric acid bath and must be evaporated here by specially supplied heat, a process that causes considerable costs, partly in itself, partly due to the high wear and tear of the required radiators that are constantly in contact with the hot acid. Of the Compulsion to have to exactly pause the temperature point most favorable for the tar separation, also requires special facilities that are constantly monitored have to. The previous mechanical devices for hot tar separation are sick also because, compared to their task of removing the light tar mist, they disproportionately heavy machinery, large quantities of washing tar, and high labor rates require.

With the new invention, the distance

the tar mist from the gases can be brought about by the introduction of high-voltage electricity. The ability of electricity to separate impurities and also tar mist from gases, is known and per se not the subject of the invention. Rather, the invention consists in the application of this principle on the direct production of solid ammonia, which compared to the previous

to expensive and cumbersome process of this kind a substantial reduction in price, simplification and greater operational reliability and thus a technical advance of the highest economic importance is achieved. A major advantage of the new method of separating the tar from the gases before the acid bath by introducing high-voltage electricity is that the temperature during tar separation can be taken so high above the dew point of the gas that firstly no condensation precipitates and secondly a large excess of heat is still carried into the acid bath by the overheated gases, whereby a complete safeguarding of the saturation process is guaranteed in every respect without the addition of external heat. Numerous experiments have shown that the separation of the tar mist from the gases is still successful at 100 ° and above. Since the dew point of normal coke oven gas is around 75 ^° C., there is a large amount of leeway available to guide the process. Furthermore, since tar separation by electricity, in contrast to the previous mechanical separation processes, does not move heavy machines and large amounts of detergents, but only the tar mist itself. the labor consumption is correspondingly low. For a coke oven battery of -60 ovens it is only about 2 HP, while 'riaCli', the previous process, consumes 30 to 60 HP. The through the new process !? The advantages achieved are: 1. Elimination of disruptive steam and lime for processing the condensed water; 2. Elimination of the corresponding apparatus; 3. Discontinuation of the restrictive operating regulations regarding the observation of certain working temperatures; 4. Extraordinary energy savings.

Claims (1)

Patent claim: Process for the direct extraction of ammonia from the gases of the distillation of coal, wood, peat and the like in the form of tar-free sulphate, characterized in that that the tar is excreted before the acid bath by introducing high-voltage electricity into the gas.