SU1299612A1 - Method of adsorption - Google Patents

Abstract

The invention relates to the field of adsorption purification of vapor-gas mixtures and is intended for the recovery of solvents. The purpose of the invention is to increase the efficiency of the use of the adsorbent during the adsorption of vapors of organic substances. This is achieved by passing gas through the adsorbent bed, which is carried out in the forward and reverse directions with a temperature gradient at a speed ratio of 2-5: 1. 1 ill., 1 tab. Yu: about with O5 to

Description

1129

The invention relates to methods for the adsorption purification of vapor-gas mixtures and can be used: in organic organic solvent recovery units, to sanitize emissions of organic matter into the atmosphere.

The purpose of the invention is to increase the efficiency of use of the adsorbent by increasing its dynamic capacity during adsorption of vapors of organic substances.

The goal is achieved by the fact that the transmission of gas through the layer of adsorbent is carried out in the forward and backward lines at a speed ratio (2-5): 1.

The minimum ratio of speeds (2: 1) is due to the fact that the day of a specific adsorber, in which the adsorbent layer is loaded, the change in linear velocity related to the free cross section is possible only with a change in the volume of the gas to be passed. This can be done by installing an additional adsorber and dividing the gas stream into two equal volumes. An uneven distribution of the volumes of gases leads to a decrease in the efficiency of the use of the adsorbent, since this achieves different values of the dynamic capacity of the adsorbent: in one adsorber it is less, in the other - more.

The drawing shows a scheme for carrying out the adsorption method for a 2: 1 ratio.

The steam-gas mixture flow (PGS) is passed through the layer of adsorbent in adsorber 1 with a given temperature gradient and linear velocity w with open valves 2, 3 and closed 4-9. After saturation of the adsorbent layer, the CGS flow with the speed W and the same temperature gradient is passed through the adsorber 10 with the valves 5, 9 open and 2, 3, 6, 7, 8 closed. After the adsorbent is saturated, the CGS ad-sorber 10 divided into two streams and sent to adsorbers 1 and 10 with open valves 4, 6, 7, 8 and closed 2, 3, 5, 9 at a speed of W 0.5 W. In this case, the direction of the temperature gradient coincides with the direction of gas movement.

The ratio of speeds 3: 1; 4: 1; 5: 1 is achieved by setting respectively three, four, five adsor22

berov and uniform distribution

among them gas.

Carrying out the process according to such schemes contributes to an increase in the dynamic capacity of the adsorbent during adsorption of organic matter by reducing the degree of desorption of a component absorbed by passing the gas stream in the forward direction and partially released into the gas phase due to the gas flow flowing at the same rate .

The possibility of increasing the dynamic capacity of the adsorbent according to the proposed method was tested under laboratory conditions, which are listed in the table.

The experiments were performed on a flow installation using SKT-3 active carbon; A mixture of air and toluene (acetone) was used as a model PGG.

The results of the experiments listed in the table indicate the possibility of increasing the efficiency of the use of the adsorbent in the proposed method by passing the CGH stream through the adsorbent layer first in one direction with a given speed, and then in the opposite direction with a speed less than two to five times the initial direction of flow of the CBC.

A decrease in the gas flow rate in the opposite direction, for example, by a factor of 6 (6: 1 ratio) with respect to the flow rate in the forward direction does not lead to a significant increase in the dynamic capacity of the adsorbent.

Claims (1)

Invention Formula The method of adsorption by passing a gas stream containing the sorbed component through a fixed bed of adsorbent with a temperature gradient decreasing along the bed length to saturation, followed by changing the direction of the temperature gradient and moving the gas stream to the opposite one, characterized in that using the adsorbent by increasing its dynamic capacity during adsorption of vapors of organic substances, the passage of gas through the layer of adsorbent in the forward and reverse directions is carried out at ootnoshenii velocities (2-5): 1. Temperature, C: at the entrance to the adsorber 18 4040 at the outlet of the adsorber18 1818 Linear transmission rate of ASG, m / s: in the direct direction 0.3 0.3 0.3 0.3 0.3 0.3 O 3 in the opposite direction - 0.3 0.15 0.1 0.075 0.06 0.05 Dynamic capacity adsorbent, wt.% 7.10 9.10 9.98 9.90 10.52 10.92 10.90 (2.96) (3.56) 4.05 3.86 4.66 5.00 gchkh-9 4 "GHB Compiled by A.Sondor Editor S.Lisina Tehred N.Glushchenko M.Samborska Corrector Order 958/5 Circulation 657 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 5 nhz8 Chh