SU1386257A1 - Absorber - Google Patents

Abstract

The invention relates to apparatus for use in chemical industry, for carrying out processes in gas-liquid and gas-liquid-solid systems, associated with the absorption of a gas agent by the liquid phase or. suspension, and allows to increase productivity by increasing the contact surface and more fully utilizing the reaction volume. The absorber contains upper and lower tube plates with bubble and circulation pipes fixed in them, and the pipes are made with perforations for supplying gas inside them, which decreases from the bottom upwards along the height of the absorber ;, 1 zp. f-ly, 1 ill.

Description

C d 00 05

Yu

SP

eleven

The invention relates to apparatus for use in the chemical industry, for carrying out gas-liquid and gas-liquid-solid processes associated with the absorption of a gas agent by a liquid phase or suspension.

The purpose of the invention is to increase productivity by increasing the contact surface of the phases and more fully utilizing the reaction volume.

The drawing shows the proposed absorber.

The absorber consists of a cylindrical housing 1 with bottoms 2 and 3. Inside the housing 1 in the tube sheets 4 and 5, a vertical tube bundle is fixed, consisting of bubble 6 and circulation 7 tubes. The pipes 6 consist of individual sections 8-11, each of which is made of a porous material. The pore size of sections 8-11 decreases, respectively, from 125, 100, 75 and 50 microns as the height of the tubes 6 increases. Bottoms 2 and 3 are made with jackets 12 and 13 for heating or cooling. The apparatus is equipped with fittings 14-21 for the introduction and discharge of gas, liquid, heat and coolant, respectively.

The absorber works as follows.

Before filling the apparatus into the annulus, inert gas flows through the nozzle 14, which enters the tube space through the pores of sections 8-11 of the bubbling tubes 6. The liquid phase enters the apparatus through the nozzle 16. After filling the apparatus to the level of the overflow, the inert supply is turned off through the nozzle 17 gas and through the nozzle 14 is supplied gaseous agent. As a result of the difference between the densities of the pure liquid in the circulation pipe 7 and the gas-liquid mixture in the bubbling pipes 6, a liquid circulation occurs in the apparatus. The gas agent enters section 11 with the largest pore size of 125 μm, which

five

five

0

0

five

0

five

corresponds to its hydraulic resistance of 0.1-0.15 kgf / cm. By reducing the pore size in sections 11, 10, 9, and 8, their hydraulic resistance increases, respectively: 0.1-0.15; 0.15-0.2; 0.2-0.25 and 0.25-0.3 kgf / cm, and the flow rate of the gaseous agent entering through the pores decreases along the height of the tubes 6. Ascending up through the pipes 6, the gaseous agent is partially absorbed by the liquid phase, and the absorbed amount is replaced The quantities coming in succession from sections 8-10. Depending on the nature of the chemical reaction, the jackets 12 and 13 of the caps are supplied with heat or coolant through nozzles 19 and 20.

The use of the proposed technical solution in comparison with the known device provides an increase in productivity by two times with equal reaction volume.

The application of the invention across the industry will halve the amount of capital investment in the construction of industrial premises, the manufacture of reactionary and auxiliary equipment, and a reduction in the number of service personnel.

Claims (2)

1.Absorber containing a housing, upper and lower tube sheets with bubble and circulation pipes fixed in them, inlet and outlet nozzles of the phases and heat or coolant, characterized in that, in order to improve performance by increasing the contact surface of the phases and more full utilization of the reaction volume, the pipes are made with perforations for gas supply inside them, decreasing from bottom to top along the height of the apparatus. 2. Absorber pop. 1, different u u and u with from sections. so that the pipes are made 1386257 Gas Phase 15. In In " thermalkitkl iS