SU860836A1 - Unit for carrying out adsorption process - Google Patents

Description

one

The invention relates to the design of chemical technology apparatuses and to be applied in the chemical and other industries, in particular for carrying out the process of absorption of sulfuric anhydride and gas drying in contact production of sulfuric acid under pressure.

A known installation for carrying out the process of absorption of sulfuric anhydride in a sulfuric acid system, working under pressure, which includes a nozzle absorber, a collection of hot acid, a circulation pump, a heat exchanger for cooling sulfuric acid and a pressure tank connected by acid lines in series with each other 1.

The disadvantages of such an installation include low intensity and insufficient efficiency of the packed absorption apparatus, as well as difficult operating conditions of the circulation pump under increased system pressure and the corrosive activity of sulfuric acid.

The known installation for carrying out the absorption process, includes, and the contact apparatus, connected through a hydraulic lock with a separator collector, and an air-lift 2.

In this installation, a one-time passage of fluid through the airlift and contact apparatus is carried out. The disadvantage of the installation is also a large metal consumption, which is especially undesirable under conditions of increased corrosivity of sulfuric acid.

5 The purpose of the invention is to increase

process efficiency, reduction of fogging and simplification of the structure.

This goal is achieved by setting

supplied; ena heat exchanger connected

10 with a collector-separator and the lower part of the contact apparatus, and the airlift is installed in the contact apparatus.

In the drawing, a schematic diagram of the proposed installation for carrying out the absorption process is provided.

The installation for carrying out the process of absorption of sulfuric anhydride includes a contact apparatus 1, an air-lift 2, a collection separator 3, a heat exchanger 4, and a hydraulic shutter 5.

The installation works in the following way.

The gas stream containing al, sulfuric anhydride, under pressure enters the upper

25 part of the hollow contact apparatus 1, down the annular space of the walls of the apparatus 1 and the airlift 2 down through the holes in the airlift enters it inside and in the form of a gas mixture dvigostnoy moves 30 s along the airlift up to the collection separator 3.

The absorption process is carried out in the process of gas contact with the acid flowing down the gas as the gas moves from above into the coloins annular space and when the gas-liquid mixture moves in the air-lift pipe. The heat released during the absorption process, as well as the heat of the incoming gas (200-250 ° C), go to heat the acid. The gas from the collector-separator 3 v. Is removed for further processing, and the hot sulfuric acid is cooled in the heat exchanger 4 and re-supplied to the contact apparatus 1 for the next absorption cycle. Part of the hot sulfuric acid from the collector-separator, mine heat exchanger 4, through the hydraulic lock 5 enters the upper part of the contact apparatus for irrigating the inner walls of the column and the outer wall of the airlift. Preliminary absorption of sulfuric anhydride upon contact of the gas with the flowing film of hot sulfuric acid causes the so-called "hot absorption, which reduces the formation of difficult to catch sulfuric acid mist. At the bottom of the column, a stream of sulfuric acid flowing off the film is mixed with the cooled sulfuric acid coming from the heat exchanger 4, after which the entire volume of sulfuric acid is entrained by the gas stream into the airlift, where the final absorption process takes place. The amount of absorbed sulfuric anhydride at the stage of “th.r; s1ch it and a.01Surbtion (forabsorption) can reach 70-90% of the total amount of sulfur in the sulfuric anhydride unit.

Performing an absorption installation in the proposed form, in addition to increasing the efficiency of the absorption process, reduces capital costs due to the operation of the absorption column at high gas velocity (5–8 m / s instead of 0.7–1 m / s in the packed column).

Claims (2)

1.Vi4on V. Chemical Process Engineermg, No. 7, 1972, p. 34 (France). 2. USSR author's certificate number 645663, cl. B 01D 3/26, 1976 (prototype).