SU610557A1 - Adsorber - Google Patents

Description

The invention relates to the design of apparatus for carrying out continuous adsorption processes used in the chemical industry. A mass transfer apparatus is known, including a housing with plates placed in its height along the plates in the form of overturned truncated cones, to the vertices of which are attached downwardly extending guide sleeves, over which contact elements are fitted with a gap, provided with separation devices in the upper part, and tube 1. A mass-exchange apparatus with circulating tubes within which additional tubes are installed is known for entering from the outside of the pelvis, with the aim of moving the solid phase and registering it or its velocity. The disadvantage of such devices is the uneven distribution of the solid to phase across the cross section of the contact element during the transition to devices of large diameters. A known adsorber includes a housing with contact plates located at its height in the form of tilted truncated cones, to the vertices of which are attached expanding knives guide pipes, over which contact elements are fitted with a gap, fitted with separation devices in the upper part, and under which located: a keno feed device in the form of a cone, and regrinding JiJ .. A disadvantage of such an adsorber is the uneven distribution of the solid phase i of the microspheric adsorbent, for example zeolites, silica gels) across the cross section of the contact element when moving to large-diameter apparatus, which leads to non-uniform mesh processing of the adsorbent grains, to a decrease in the efficiency of the apparatus. . . . The purpose of the invention is to intensify the process of adsorption due to uniform distribution of the adsorbent over the cross section of the contact element. . .... The goal is achieved by the fact that the adsorber is equipped with the one installed above the cone; the feed unit with a variable cross-section nozzle with -flowing additional flow tubes mounted in the lateral surface of a larger cross-section, and the cone feeding the ieroero device is installed at a distance from the device body.

Due to this design of the contact stage, it is possible to significantly improve the uniformity of distribution of the microspherical adsorbent (silicate, zeolites with a grain diameter of 500 µm) across the cross section of the contact element, to improve the uniformity of the processing of the adsorbent grains.

FIG. 1 shows the adsorber, cross section; in fig. 2 shows a section A-A in FIG. on fig.Z - section along the BB in figure 1. The adsorber consists of a housing 1 with plates 2 in the form of overturned truncated cones with guiding nozzles 3. Above the plates 2 contact elements 4 are installed, fitted in the upper part with separation devices 5. Flow pipes b pass through the plates 2, and the floor contact elements 4 are placed nozzles 7, mounted on the cones of 8 feeding devices. The adsorber is equipped with additional overflow pipes 9 connecting the nozzles 7 with the plate 2 and fittings 10 and 11, respectively, for supplying the regenerated adsorbent to the apparatus and withdrawing from the apparatus the spent adsorbent, fittings 12 and 13, respectively, for supplying the source gas for cleaning and removal from the apparatus purified gas and choke 14 to unload the adsorbent from the apparatus after it stops.

The proposed adsorber works in the following manner.

The adsorbent, entering the upper plates 2 through the nozzle 10, moves by gravity along the conical surface of the plate and through the annular slot formed by the lower bases of the contact elements 4 and the surface of the plate, its main mass penetrates into the space of the contact element and is picked up by a gas stream moving from below upward at high speed Part of the adsorbent from the plates 2 through the additional flow pipes 9 enters the internal space of the pipes 7, is picked up by the rising gas flow and is directed to ednyuyu piece contact element 4. Thus the conditions are created for a more uniform distribution of adsorbent on the cross section of the contact element. onus 8 is a feed device located in

the lower part of the pipe 7, serves to distribute the gas flow through the main section of the apparatus and through the section of the pipe 7.

Passing the contact element zone, the adsorbent and the gas stream enter the separation device 5 for centrifugal separation of the phases. Separated from the solid phase enters the bottom of the plate 2 and accumulates on it, then flows through the downstream pipes 6 to the underlying plate where the process is similar to the process described in the overlying contact stage.

The adsorbent, moving from top to bottom from the step to the step along the flow pipes 6, leaves the adsorber through fitting 11, and the 17th flow is fed into the adsorber through fitting 12, has passed all contact steps, leaves the adsorber cleaned through fitting 13.

Claims (3)

1. USSR author's certificate No. 339293, cl. At 01 S 3/32, 24. 05.72. 2. USSR author's certificate number 415028, cl. B 011 53/20, 15 .02.74. 3. Application 2122857, 11.04.75 for which the decision to issue an author's certificate was made. } 0 Aa