RU2630788C2 - Adsorbent - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: adsorbent, for example, for a vertical adsorber, contains cylindrical body with a conical cover and a bottom. A loading hatch is mounted in the cover, a union for supplying initial mixture with a distributing grid, a union for discharging vapours during desorption and a union for safety valve. There is a stiffening ring in the cover and body joint area. The beams with supports that support a fire grate with gravel layer placed therein are positioned in the middle part of the body on the supporting ring. An adsorbent layer is arranged between the gravel layer and a screen on which weights are arranged to prevent adsorbent entrainment during desorption. The unloading of spent adsorbent is carried out through unloading hatch installed in the body. A bubbler and an inspection hatch with a union for discharging condensate and supplying water are mounted in the bottom. The bubbler has a toroidal shape and is fixed on the bottom conical surface by means of spacers. According to the versions, adsorbent is made in form of cylindrical ring which side, inner and outer surfaces have helical thread in opposite directions. The adsorbent is made in the form of a ring, on the outer surface of which there is a screw surface made as a plate auger. The adsorbent is made in form of cylindrical ring on which side inside surface there are partitions in the form of washers with holes perpendicular to ring axis, the axes of which are asymmetric to the ring axis. The adsorbent is made in form of a block inscribed in a circle and consisting of seven hexagonal parallelepipeds connected therebetween by side faces without upper and lower bases. The adsorbent is made in the form of spiral spirals connected therebetween and inscribed in a spherical surface with a center lying on axis of the spiral connection. The adsorbent is made in the form of at least twelve three-bladed propellers connected to the block, projection of which is inscribed on the drawing plane in a circle with center coinciding with one of their centers.

EFFECT: increasing the degree of gas flow purification from target component and dust by increasing the adsorbent contact area with the target component.

13 dwg

Description

The invention relates to equipment for carrying out adsorption processes in a gas (steam) - adsorbent system.

The closest technical solution to the claimed object is an adsorber containing a housing with a lid and a bottom and an adsorbent layer located between them according to RF patent No. 2471536, B01D 53/02 (prototype).

A disadvantage of the known adsorber is that it does not provide a high degree of purification of the gas stream from the target component.

The technical result is an increase in the degree of purification of the gas stream from the target component by increasing the contact area of the adsorbent with the target component.

This is achieved by the fact that the adsorbent, for example, for a vertical adsorber containing a cylindrical body with a lid and a bottom, is equipped with a loading hatch in the lid, a fitting for supplying the initial mixture with a distribution grid, a fitting for venting vapors during desorption, and a fitting for a safety valve, at the junction of the cover and the housing, a stiffening ring is provided, and in the middle part of the housing on the support ring there are beams with supports supporting the grate, on which a layer of gravel is laid, and the adsorbent layer located between the gravel layer and the grid on which the goods are located to prevent adsorbent entrainment during desorption, and the spent adsorbent is unloaded through the discharge hatch installed in the housing, and a bubbler and inspection hatch with a fitting for condensate drainage and water supply are mounted in the bottom, the bubbler is made toroidal shape and fixed on the conical surface of the bottom by means of spacers, made in the form of a cylindrical ring, to the side surface of which are oppositely attached to each other two olusfericheskie surface so that the hemispherical diametric plane coincide respectively with the upper and lower bases of a cylindrical ring, and the vertices are hemispherical surfaces on the ring axis and directed towards each other.

In FIG. 1 shows a frontal section of the adsorber; FIG. 2 is a variant of the adsorbent made in the form of a cylindrical ring with hemispheres, in FIG. 3 is an embodiment of an adsorbent made in the form of a cylindrical ring with mutually perpendicular plates inside, FIG. 4 is an embodiment of an adsorbent made of a lattice structure inscribed in a circle; FIG. 5 shows an adsorbent made of a lattice structure (FIG. 4), in a perspective view, in FIG. 6 shows an adsorbent made in the form of a cylindrical ring on the lateral, inner, and outer surfaces of which a screw thread is made; FIG. 7 shows an adsorbent made in the form of a ball, on the surface of which non-through holes are made hemispherical in shape, in FIG. 8 shows an adsorbent made in the form of a ring, on the outer surface of which a helical surface is made like a plate auger; FIG. 9 shows an adsorbent made in the form of at least a three-bladed propeller.

The adsorbent, for example, for a vertical adsorber, is made in the form of a cylindrical ring with hemispheres, designed for vertical or any other adsorber (Fig. 1, 2). The adsorber (Fig. 1) contains a cylindrical body 12 with a conical cover 9 and a bottom 21. In the cover 9, a loading hatch 4, a fitting 5 for supplying the initial mixture, drying and cooling air through a distribution grid 6, a fitting 7 for removing vapors during desorption are mounted and union 8 for the safety valve. A stiffening ring 11 is provided at the junction of the cover 9 and the housing 12. In the middle part of the housing 12, beams 17 with supports 22 are mounted on the support ring 14, supporting the grate 15, on which a layer of gravel 1 is laid. The adsorbent layer 13 is located between the gravel layer 1 and mesh 3, on which the goods 10 are located to prevent the entrainment of the adsorbent during desorption. The discharge of the spent adsorbent 13 is carried out through the discharge hatch 2, mounted in the housing. In the bottom 21 there is a viewing hatch 18 with a fitting 19 for condensate drainage and water supply, as well as a bubbler 20 with a fitting 23 for supplying water vapor through a bubbler. The bubbler is made of a toroidal shape and mounted on the conical surface of the bottom 21 by means of spacers. The fitting 16 for the removal of purified gas is located on the conical surface of the bottom 21.

The process of adsorption and desorption occurs with the following optimal ratios of the components making up the apparatus: the ratio of the height H of the cylindrical part of the body to its diameter D is in the optimal ratio of values: H / D = 0.73 ... 1.1; the ratio of the height H of the cylindrical part of the body to the thickness S of its wall is in the optimal ratio of values: H / S = 220 ... 275; the ratio of the height of the adsorbent layer H ₁ to the height H of the cylindrical part of the body is in the optimal ratio of values: H ₁ / H = 0.22 ... 0.55; the ratio of the height of the adsorbent layer H ₁ to the height H _{2 of the} gravel layer is in the optimal ratio of values: H ₁ / H ₂ = 5.0 ... 12.0.

In order to increase the degree of purification of the gas stream from dust or the target component by increasing the contact area of the dusty stream with the adsorbent 13 (Fig. 2), it is made in the form of a cylindrical ring, on the side surface 30 of which two hemispherical surfaces 31 and 32 are attached opposite to each other so so that the diametrical planes of the hemispheres coincide respectively with the upper 33 and lower 34 bases of the cylindrical ring, and the vertices of the hemispherical surfaces are on the axis of the ring and are directed towards each other.

It is possible to perform adsorbent with perforation 35 both on the side surface 30 and on the hemispherical surfaces 31 and 32.

The adsorbent 13 (Fig. 2) is made of porous polymeric materials, glass, porous rubber, composite materials, wood, stainless steel, titanium alloys, precious metals.

It is possible to make the adsorbent 13 (Fig. 3) in the form of a cylindrical ring, to the lateral inner surface 36 of which two plates 37 and 38 are mutually perpendicularly attached so that they do not protrude beyond the height of the ring.

It is possible to carry out an adsorbent 13 (Figs. 4 and 5) of a lattice structure inscribed in a circle and consisting of at least two supporting (base) plates 39 and 40 located along the chords of the circle, near its diameter, which are perpendicular to at least twelve additional plates parallel to each other 41, made in the parallel direction of the chords of a circle, with a uniform distribution along its diameter.

It is possible to perform an adsorbent in the form of a cylindrical ring (Fig. 3) and an adsorbent of a lattice structure (Figs. 4 and 5) with perforation on the surfaces that form them.

It is possible to perform the adsorbent 13 (Fig. 6) in the form of a cylindrical ring, on the lateral, inner and outer surfaces of which a screw thread is made (not shown in the drawing) in opposite directions.

It is possible to perform adsorbent 13 (Fig. 7) in the form of a ball, on the surface of which non-through holes are made hemispherical in shape (not shown in the drawing).

It is possible to perform adsorbent 13 (Fig. 8) in the form of a ring, on the outer surface of which a helical surface is made like a plate auger.

It is possible to perform adsorbent 13 (Fig. 9) in the form of at least a three-blade propeller.

It is possible to carry out the adsorbent 13 (Fig. 10) in the form of a cylindrical ring, on the side, inner surface of which partitions are fixed in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring.

It is possible to carry out the adsorbent 13 (Fig. 11) in the form of a block inscribed in a circle, consisting of seven hexagonal parallelepipeds connected to each other by side faces without upper and lower bases.

It is possible to perform the adsorbent 13 (Fig. 12) in the form of interconnected helical spirals inscribed on a spherical surface with a center lying on the axis of the spiral connection.

It is possible to perform adsorbent 13 (Fig. 13) in the form of at least twelve connected to a block of three-bladed propellers, the projection of which onto the plane of the drawing fits into a circle with a center coinciding with the center of one of them.

The adsorbent, for example for a vertical adsorber, operates as follows.

The gas (steam) stream for cleaning is fed to the upper part of the apparatus through the nozzle 5 for supplying the initial mixture through the distribution grid 6. The purified gas stream is discharged from the adsorber through the nozzle 16. The adsorbent is loaded through the loading hatch 4, and the spent adsorbent is removed through the unloading hatch 2. Desorption is carried out by supplying water vapor through the nozzle 23 to a bubbler 20 having a perforated toroidal surface for a more uniform course of the desorption process. The fitting 7 is provided for venting during desorption, and a relief valve is installed in the fitting 8.

Claims (1)

The adsorbent for a vertical adsorber containing a cylindrical body with a conical cover and a bottom, a loading hatch, a fitting for supplying the initial mixture with a distribution grid, a fitting for venting vapors during desorption and a fitting for a safety valve are mounted in the cover, and a ring is provided at the junction of the cover and the housing stiffness, and in the middle part of the body on the support ring there are beams with supports supporting a grate, on which a layer of gravel is laid, and the adsorbent layer is located between the layer gravel and a grid on which goods are located to prevent adsorbent entrainment during desorption, and the spent adsorbent is unloaded through a discharge hatch installed in the housing, and a bubbler and inspection hatch with a fitting for condensate drainage and water supply are mounted in the bottom, while the bubbler is made toroidal the shape and fixed on the conical surface of the bottom by means of spacers, characterized in that the adsorbent in shape is made in the form of a cylindrical ring, on the side, inner and outer surfaces of the cat A screw thread is made in opposite directions, or the adsorbent is made in the form of a ring, on the outer surface of which a screw surface is made like a plate screw, or the adsorbent is made in the form of a cylindrical ring, on the side, the inner surface of which is fixed by partitions in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring, or the adsorbent is made in the form of a block inscribed in a circle, consisting of seven hexagons connected to each other by lateral faces parallelepipeds without upper and lower bases, or the adsorbent is made in the form of interconnected helical spirals inscribed on a spherical surface with a center lying on the axis of the spiral connection, or the adsorbent is made in the form of at least twelve three-bladed propellers connected in a block, the projection of which on the plane of the drawing fits into a circle with a center coinciding with the center of one of them.

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