DE323416C - Device for nitric and sulfuric acid recovery from waste acids - Google Patents

Description

Device for nitric and sulfuric acid recovery from waste acids. The object of the invention forms a reactivation apparatus (ring system) for nitric and sulfuric acid recovery from waste acids from paint residues and the like - the novelty of the apparatus consists in the fact that the inserts, which are used for the recovery of Nitric and sulfuric acids are used, made of clay, glass or other suitable material exist in a ring shape. The waste acid to be processed is fed through an inlet port introduced into the apparatus with a distribution tray, where such over the built-in Rings with calottes and supports trickle and regeneration takes place as a result.

In the accompanying drawings, the subject matter is in an exemplary embodiment shown. The device consists of tower A and an associated cooling system B. In its internal parts, the tower is made of acid-proof material, and in its Sheathing partly made of cast iron and partly of acid-resistant. Metal made, while the cooling system is made of hard lead or similar metal. The tower consists of an ascending line of outlines connected by flanges and sleeves Tubes i, at the foot of which is a collecting basin 2 with an outlet 3 for the sulfuric acid and at its head an outflow pipe4 running in [) -form for the nitric acid vapors, which are compressed to nitric acid by water cooling 5, is appropriate.

In the inner expansion of the tube i there are rings 6 with openings in the bottom 7, of which the central larger opening 8 for the passage of the rising nitric acid vapors and the smaller holes 7 are intended for the passage of liquid sulfuric acid are. The partition 9 divides the rings 6 close behind the holes 7 on one side two parts. The rings 6 sit in acid-resistant cement and are 5 to 7.5 mm Distance from the inner wall of the cladding tube i layered on top of one another. The Rings 6 can be stacked in any number, depending on the more or lower height of the apparatus. A according to the efficiency of the same. Of the The last upper ring io has a bottom opening 12 and i in addition to the central hole i i is covered by a spherical cap 13. The inlet is located above the spherical cap 15 14 and the distribution tray 15 for the liquid to be processed: Next At the top are several supports 16 with domes 17 (each of the supports 16 has a domed 17) used. Above this there is a vessel 18 which opens into a quiver-like vessel Vent pipe i9. On the side of tower A is the U-shaped nitric acid cooling tube 4 in the water tank B. There can also be several [) pipes. At the inside the U-tube is filled with balls made of acid-resistant material, so that the nitric acid vapors move more slowly through the cooling system. At the end An exhaustor is connected to the [) pipe to draw off the nitric acid vapors. At the bottom of the pipe 4 at the semicircular bend is the outlet pipe 2o for the nitric acid obtained. At the tower. -1 there are two Manometer and thermometer openings, one below directly above the collecting container 2 and one at the top directly above the inlet tray 15.

The tower is from the first pipe 2 1 above your collecting basin: 2 off to the penultimate ring io under the distribution tray 15 from a brick fire vent for oil firing surrounded. As usual, the whole tower A rests on a masonry one Floor and is supported or surrounded by an iron structure (scaffolding with gaps in between). In itself, the apparatus A represents a column covered with a plate C at the top is. The processing of the mass takes place in the following way: The one to be processed Waste acid from paint residues etc. is introduced into the apparatus through the inlet opening 14 A brought and taken up by the distribution tray 15. It trickles over the dome 13 and supports io down through the heated tube parts. Here will be the water vapors with 100 °, the nitric acid vapors with 120 ° up to 126 ° and the sulfuric acid (boiling point 33o °) is fed to the collecting container 2 below. the Sulfuric acid makes its way through the bottom holes 7, while the nitric acid vapors rise through the central opening 8 upwards. The vapors rise to the inlet opening 1q. and beyond and migrate through the overlying -the inlet opening Rings 16 with domes 17 in any number according to the performance and the amount of the investment. The inlet opening 14 is set up like a sack so that it at the same time hermetically seals against the inside of the pipe so that gases do not escape can. The nitric vapors collide with the head plate C of the main tube i.

The vapors of the nitric acid make their way through the cooling tubes q. with the ball inserts, condense into a liquid and become through the drain pipe located on the U-tube 2o with gooseneck, the collecting reservoir for Nitric acid supplied. Special gases do not need to be introduced because by heating up the apparatus the process. takes place independently.

Claims (3)

PATENT CLAIMS: i. Device for the recovery of nitric and sulfuric acids from waste acids, consisting of an externally heatable tower-like apparatus and a cooling system, characterized in that the tower consists of an ascending pipe (i) connected by structure and inside rings (6) with bottom openings (7), of which the central larger openings (8) for the passage of the rising nitric vapors and the small openings (7) for the passage of the liquid sulfuric acid are determined, with partitions (9) the rings (6) tight behind the openings (7) separate into two parts on one side and keep the rings (6) at a distance from 5 to 7.5 mm in any number from the inner wall of the casing tube (i) are stacked on top of each other. 2. embodiment of the device according to claim i, characterized in that the openings of the uppermost ring (io) in known Way are covered with a dome (13), and one over the dome (13) Inlet (1q.) And a distribution tray (15) for the liquid to be processed above which shell several rings (16) also with domes (17) are arranged, above which a quiver-like vessel with a ventilation pipe (i9) is appropriate. 3. Embodiment of the device according to claim i and 2, characterized in that the U-shaped nitric acid cooling tube is at the top side of the tower (A) (.4) is located. in which balls made of acid-resistant material are stored, and ah whose semicircular bend is attached to the outlet pipe (2o) for the nitric acid obtained is.