SU747512A1 - Adsorber - Google Patents

Description

(54) ADSORBER

one

This invention relates to adsorber designs and may be used to purify gases.

Known adsorber comprising a horizontal cylindrical body with a flat layer of sorbent 1.

The disadvantage of the known adsorber is a large metal intensity, the inefficient use of the sorbent, the use of large production areas during operation.

The known rotor adsorber, comprising a cylindrical body filled with an adsorbing substance, is placed inside the body of a rotor, divided by radial partitions into sections, each of which; fitted with a nozzle for supplying working agent 2J.

The disadvantage of the known adsorber is that it requires the use of complex sealing devices to ensure the tightness of the sections of the rotating rotor, the inability to use such structures for cleaning

 large volumes of exhaust emissions, high metal intensity and other disadvantages.

An adsorber is also known, which includes a vertical cylindrical body with a conical lid and a bottom, internal and external cylindrical grids with an annular channel between them for the sorbent coaxially mounted in the body, and output pipes for the sorbent and fittings for input and output of the vapor-gas mixture and regenerant agent connected to the body 3,

The disadvantage of the known adsorber is the inefficient use of the sorbent, since the upper part of the layer,

IS is equal to the height of the truncated cone of the sorbent, which is formed when it is poured through the hatches above the layer and part of the layer with a reserve of sorbent for shrinkage, is non-working, in addition, during unloading, part of the sorbent,

Claims (3)

20, due to the angle of repose of the sorbent, remains in the apparatus and disassembly of the apparatus is required for removal. The disadvantage of this construction is that the condensate of the solvent accumulates in the lower part of the layer and in the fittings for the E1S sorbent, which may cause explosions and fires, in order to increase the efficiency of use of the sorbent and increase safety when working with explosive and flammable environments , the adsorber is provided with a solid cone tipped with truncated 7sonuses coaxially connected by large bases with lower ones, which is connected with the upper end of the inner cylindrical grid. grids, and connecting: with smaller bases of truncation: cones with an internal perforated cylinder with a sloping wall and external: solid shshadrom, connecting with a sorbent extraction patr, the cylindrical grids made in the form of interconnected sections and equipped with connecting devices , made in the form of located coaxially above each other on the adjacent 1x sections of the ripper and screw stops, and with the weight reduction neJHDio, the gratings are made of a multilayer MI with layers of frame network and main chalk go to the cell setklg. The drawing shows a longitudinal section of a General view of the adsorber. The adsorber includes a housing 1, a con necting lug 2 and a bottom 3, a coaxial Hbte lattice lattice 4 and 5, a sorbent 6, a solid cone 7, a coaxial truncated corpus 8 and 9, a perforated cylinder 10, a solid cylinder 11, a perforated 1 inclined wall of a rectangle, and a horn 10, a cylindrical cylinder 10, a continuous cylinder 11, a curved sloping wall of a rectangular body 10, a cylinder 10, a continuous cylinder 11, a curved cushioned head 8 and 9 13, vs1tovy an emphasis 14 for fixing of Sh1fty layer and vklptovy 15 for fgassashsh1 Shch1y of the ring channel. Vapor-gas mixture (P.GS) .16 fed via the outlet into the chamber 1.7, education, hydrochloric SPL01SH1YM iil1P1drom 11 nejxJDopnpovoshyuy flat nakloishoy Dnishev wall 12 and 13 and further through the lane ({) or1fovanny shtl1padr Yu in distributing central channel formed by the inner tsilivdri 5. The passage through the layer of the PGS sorbent is 1, 1 enters the annular collecting channel formed by the body and the outer cista; 4, enters the assembly 1)) and truncated cone 8 and is removed through fitting 18. Sorbent loading izvodits through fitting 19, after which the sorbent is supplied through an annular conical channel 24 2O, education} gay .kryshkoy and SPLO11P1YM tapered cone 7 in an annular space formed koshshialnymi cylindrical lattices, whereby is formed an annular layer of sorbent. In this case, there are no gaps in the circumference of the filling of the annular conical channel 20 caused by the angle of repose of the sorbent. The volume of this channel corresponds to the volume of the sorbent to compensate for its shrinkage during operation. The sorbent is removed from the annular layer through a canal-circular 21 formed by coaxially truncated cones 8 and 9 and cylindrical 22 formed by a perforated cylinder 10 and a continuous cylinder 11, for the sake of saving the sorbent, the channels 21 and 22 can be filled with ballast material, for example, , waste sorbent or catalyst. The angle of the perforated flat wall 12 is equal to the large angle of repose of the sorbent or ballast material. When loading through iQTyuep 23, the ballast material is first removed, and then the sorbent. The basket lattices are designed to be easy to install and repair, as well as to reduce the free space above the adsorber, are height-wise, and the detachable connection is self-sealing more. To reduce the weight of the grids, it is easy to use tissue-specific sizes of the two sizes — the frame has a separate frame. basic teshio cheshita The skeleton grid has cells with a side to the light up to a larger and maximal diameter of the wire. The mesh is welded to the supporting elements of the lattice and takes up the pressure load of the sorbent, transferring it to the supporting elements of the lattice. . Condensation of water vapor and solvents from the colossal sorbent layer, from the conical channel 21 and the cylindrical drip 22, as well as drying of the sorbent or ballast material, which is located in these channels, is carried out due to the perforation of the central cylinder 10 and the flat paclon wall 12, Steam for desorption is fed through fitting 24 and removed through fitting 25. Condensate formed during desorption is removed through fittings 26. The current inspection and repair of the internal devices of the adsorber without disassembling is carried out through the hatches 27, as well as through the chamber 17 and the perforated quohedron 10, while removing the sensor 1. The adsorber is equipped, in accordance with existing requirements, safety, instrumentation, signaling and other devices ensuring its normal and safe operation. The use of an adsorber of a new design makes it possible: to increase the degree of utilization of the sorbent; to increase safety in operation when working with explosive and fire hazardous agents; improve serviceability; reduce the metal intensity of the adsorber; apply a fully mechanized system of loading and unloading sorbent Formula 1: Adsorber containing a vertical cylindrical body with a conical lid and bottom, coaxially installed inside and outside cylindrical gratings with an annular {sandwich between them for the sorbent, connected to the body of the inlet and outlet pipes sorbent and fittings for input and output of the gas-vapor mixture and regenerating agent, characterized in that in order to increase the efficiency of use of the sorbent and increase the When working with explosive fire hazardous environments, it is equipped with a 1M connected to the end of the internal cylindrical grid and located under the crush with a continuous jib, overturned truncated, coaxially connected — large bases with the lower ends of the grids, and connected to smaller bases of truncated cones with internal spf ends. cylinder, with an inclined wall and the outer solid shshshrom connected to the branch pipe of sorbent. 2. An absorber according to claim 1, of which is that the cylindrical grids are made in height in the form of interconnected sections and are provided with connecting devices. 3. The Adssrber according to p. 1 and 2 is made up of the fact that the connecting devices are made in the form of coaxially arranged one above the other on the adjacent sections of rings and screw stops. 4. An adsorber according to claim 1, in order to reduce the weight, the grids are multi-layered with layers of a large-mesh network and a main fine-mesh network. Sources of information taken into account in the examination 1. US patent number 19892О6, 12.04.33. 2. The author's certificate. USSR 191475; cl. 12e, 3 / O2, 08.19.65. 3. Serpionova E. N. Industrial absorption of gases and vapors. High School. ., 1969, p. 179, 18O (prototype).