DE193218C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

PATENT LETTERING

. - M 193218 CLASS 12 Av GROUP

B.THIEL in BREMEN.

As is well known, the production of sulfuric acid ammonia takes place in such a way that the ammonia, carbonic acid and hydrogen sulfide vapors expelled from the gas water by boiling are introduced into dilute sulfuric acid, with which the ammonia vapors form sulfuric acid ammonia (NH ₁ ) ^ S O ₄ , while the Carbonic acid and hydrogen sulfide vapors are not

ίο be absorbed with. The vapors are introduced under a lead bell, where the unabsorbed gases collect, in order to be discharged and rendered harmless. During the production of sulfuric acid ammonia, the exhaust gases always cause ammonia losses, which increase in the same proportion as the neutralization of the acid progresses. The present invention now aims to prevent these ammonia losses through the exhaust gases and to bring about a uniform neutralization of the acid. . It essentially consists of a double saturation bell α and b, the design of which can be seen in the accompanying drawing. The two bell jackets a and b are of different overall length and the outer jacket b is provided with two rows of openings c and m at different heights.

The processes in the saturation box are as follows when the double bell is used :

The gas mixture consisting of ammonia, hydrogen sulfide and carbonic acid occurs

³ S as before into the acid using a dip tube below the lead bell α. The exhaust gases collect under the inner bell α and are led from there to the post-saturator d , where they are again introduced into sulfuric acid by means of a dip tube.

The liquid column to be overcome here, the height of the liquid level in the saturation box and the overall length of the inner lead bell α are in such a relationship that below the inner lead bell a only such a high liquid level is formed that the exhaust gases penetrate under the outer bell b Security is prevented. The upper row of openings c in the outer lead bell b is arranged at such a height that it cuts off with the outer liquid level, while the lower row of openings m is about 300 mm lower. This arrangement provides a steady and vigorous circulation of the liquids below and outside the lead bell during operation.

The inner lead bell α has a temperature which is above the evaporation temperature of the water, while the outer bell b is significantly colder.

So the liquid rises between the two bells. the outer surface of the inner bell α upwards and exits through the upper row of openings c of the outer bell b . The colder liquid, on the other hand, flows down through the lower row of openings m on the inner surface of the outer bell b .

This circulation is further facilitated by the striving of the neutral liquid, the acidic liquid itself

to pull. If so much salt settles on the bottom of the box during operation that it has reached the lower edge of the outer bell b , the circulation of the liquid below and outside the bell is in no way impaired and can continue in the same way take place until the liquid has become neutral.

All ammonia vapors introduced are removed until the acid is completely neutralized taken up in the main saturator, since these are always sufficient, owing to the vigorous circulation of the liquids Find acid to bind them, and the otherwise occurring ammonia losses through

the exhaust gases are thereby completely avoided.

Claims (1)

Patent claim: Saturation apparatus for the production of sulfuric acid ammonia, characterized by the arrangement of a double bell (a, b) whose outer jacket (b), which extends deeper into the acid, is provided with openings (c, m) lying one above the other, so that through the existing temperature difference on the outer and inner bell jacket a constant circulation of the liquids under and outside the bells is accomplished. 1 sheet of drawings.