SU53613A1 - Nitric Acid Neutralizer Ammonia - Google Patents

Description

Modern devices for neutralizing nitric acid solutions with ammonia using heat of reaction have a number of disadvantages.

Most of the neutralization devices, for example, Fauser GL, ITR, are designed for neutralization under elevated pressure, which is unprofitable and not convenient for most plants. The fact is that liquid ammonia is usually used as a cold agent, with a net effect under low pressure, the repeated increase of which for neutralization purposes requires an additional expenditure of energy; In addition, the dosage of NHs and HNOj reagents during neutralization under high pressure is very difficult.

Improving the interaction of the reacting components is achieved mechanically, in particular, by means of metal partitions, circulation pipes and other methods of developing metallic surfaces, which is associated with increased corrosion of the metal.

Some designs are designed for stripping the entire

evaporating water by air (Bamag) or under vacuum (Kestner), which leads to an increase in the size of the apparatus with a relatively small productivity.

The proposed apparatus for the neutralization of the nitrogen kiglot by ammonia is free from the above disadvantages. It is intended primarily for working under normal pressure, although it can work with increased pressure with no small success.

Depending on the initial concentration of the nitric acid solution, the apparatus works independently or in a double-hulled evaporation system, being the first hull, with the secondary use of the juice vapor obtained during neutralization to heat the second hull.

The apparatus depicted in the drawing is a collector 7, covered by a cover 2 with a helmet 3. A scrubber 4, closed at the top and open at the bottom, is lowered inside the collector. The lower part of the scrubber is supported on the bottom of the collector by the uprights 5 forming free gaps between the scrubber and the bottom of the collector.

The lower part of the scrubber has slots 6 around the perimeter. In order to better protect the walls against corrosion, the inner walls of the scrubber and collector are lined with acid-resistant tiles 7, although this is not necessary with proper choice of acid-resistant steel and with good quality of production. The entire scrubber and collector are filled with Raschig's rings 8. A fitting 9 in the side wall of the apparatus is designed to remove the finished solution, and a fitting 10 in the bottom for quick descent of the solution if necessary. The fitting 77 in the upper part of the side wall of the apparatus serves to introduce ammonia gas into the upper part of the scrubber. The fitting 72 in the side of the helmet serves to introduce nitric acid, which passes through the coil 73 and enters through the sprinkler 14 into the scrubber. In the upper part of the scrubber, a horizontal grid / 5 is fixed, loaded with a nozzle from Raschig rings 8. Two inspection hatches 16 and a central vapor hole 77 are made in the lid of the apparatus, and a reflector 18 on the legs of the helmet is attached. condensate drain, and the hole in the lid 20- for steam removal.

Below is a description of the operation of the device.

Ammonia and nitric acid are continuously fed to the scrubber. The acid sprays onto the nozzle, which is designed to develop a contact surface and the best possible mixing of the liquid and gaseous phases. Due to the heat released during the neutralization reaction, the solution boils and some of the water evaporates. The vaporized water vapor, along with unabsorbed ammonia, fills the entire free volume between the rings, with the result that the nozzle works its entire surface, ensuring a high absorption effect.

The reaction proceeds mainly

it is in this part. The solution flowing down the nozzle together with steam and ammonia in the gas phase passes from the scrubber, which is the bubbler bell with respect to the collector, into the space filled by the nozzle between the scrubber and the walls of the collector where the reaction ends. The liquid level and the evaporation mirror are maintained at the height of the outlet fitting 9. The vapors are allowed to catch splashes through the nozzle layer poured onto the grill 75, then pass through the central hole, using a deflector, enter the helmet, washing its side walls and heating the coil with incoming acid and exit the apparatus. Condensation of juice vapor formed on the walls of the coil flows from the latter to the bottom inside the helmet and is discharged through fitting 19.

The proposed device can be applied not only in the production of ammonium nitrate, but also montsellitra and a number of other mixed salts.

The subject matter of the invention.

An apparatus for neutralizing nitric acid with ammonia with continuous flow of ammonia and nitric acid in a scrubber with a nozzle, characterized in that, in order to better use the heat of reaction for evaporating the solution during continuous flow of the reactants and product, the scrubber 4 with nozzle 8 irrigated with nitrogen acid, placed in a collector / filled with a nozzle, in relation to which scrubber 4 is a bubbler bell. to the author's certificate of V.T. No. 53613 Postolovsky