RU2460574C1 - Adsorber - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention relates to cleaning by adsorbents, namely, to gas cleaning equipment and may be used in chemical industry, metallurgy, and other industries. Adsorber comprises vertical case divided by perforated zigzag-shape webs into sections to make staggered confusers and diffusers, top and bottom grates and gas feed and discharge branch pipes. Top composite grate consists of fixed top part and moving bottom part. Said parts are linked by flexible springs fitted there between. Holes in top grate represent telescopic cylinders. Note here that cylinder top inner diameter is 2 to 2.5 times larger than outer diameter of grate bottom cylinder.

EFFECT: sufficient gas cleaning quality in long operation.

6 dwg

Description

The invention relates to techniques for cleaning with adsorbents, namely, gas purification equipment, and can find application in chemical, metallurgical and other industries for the purification of gas mixtures.

A well-known adsorber (see AS No. 1662642, MKI B01D 53/04, bull. No. 26, 1991), comprising a vertical housing divided by perforated zigzag partitions into sections with the formation of alternating staggered confusers and diffusers, upper and lower grilles and gas inlet and outlet pipes.

The disadvantage is the uneven distribution of gas over the surface of the initial contact of the gas to be cleaned and the adsorbent, and since the porosity of the layer is higher at the walls of the housing than in its central part, a larger amount of gas also passes here, i.e. the adsorbent at the walls of the housing is more quickly saturated with the captured component than at the center, which leads to a deterioration in the quality of drying. In addition, the additional gratings displaced vertically in the adsorber casing reduce its useful volume, i.e. the volume occupied by the absorbent, which also increases the metal consumption of the structure.

The adsorber is known (see RF patent No. 2146167, IPC B01D 53/04, publ. 10.03.2000), including a vertical casing, divided by perforated zigzag partitions into sections with the formation of staggered confusers and diffusers alternating in a checkerboard pattern, the upper and lower lattices and branch pipes and gas supply, while the gas supply pipe is a tapering truncated cone of elastic material, on the inner surface of which there are helical longitudinally located grooves, and the grooves are structurally made in the form of a "dovetail", while in the direction from the large base of the gas supply pipe to its smaller base, outlet windows having the same diameter at one horizontal level and increasing at subsequent horizontal levels as they are arranged evenly on a horizontal level between helical longitudinally located grooves movement of the gas to be cleaned from the large base of the gas supply pipe to its smaller base, in addition, the smaller base of the gas supply pipe is drowned out by an elastic material.

The disadvantage is the deterioration in the quality of cleaning the adsorbent during long-term operation, due to the destruction of the grains of the adsorbing substance due to their continuous friction between themselves and against the walls of the zigzag partitions when the gas is fed into the adsorber from the bottom up. As a result, as the grains of the adsorbing substance are destroyed by grinding, the filling height decreases, which leads to more intensive vertical movement of the grains of the adsorbing substance, followed by grinding, and this ultimately worsens the absorption capacity of the adsorber as a whole.

The technical task of the invention is to maintain the specified quality of gas purification during long-term operation by observing the normalized absorbing ability of the absorbent grains due to the constancy of their density along the height of the adsorber layer, which is achieved by reducing the volume of the adsorber, the value of which is determined by moving down the lower part of the upper grate.

The technical result is achieved by the fact that the adsorber, including a vertical casing, divided by perforated zigzag partitions into sections with the formation of staggered confusers and diffusers, upper and lower grilles and gas discharge and supply pipes, while the upper grill is detachable and consists of a fixed upper part and the movable lower part, the connection between the fixed upper and the movable lower made flexible in the form of springs peripherally mounted between them, and the holes in hney lattice are formed as telescopic cylinders, the inner diameters of the cylinders in the upper part of 2.0-2.5 times the outer diameters of the upper cylinders of the lower lattice.

Figure 1 shows the appearance of the adsorber, figure 2 shows the supply pipe in the form of a tapering truncated cone, figure 3 - scan of the internal pipe of the gas supply, figure 4 - horizontal levels in the form of concentric circles of the placement of the exhaust windows, figure 2 .5 - section of a helical longitudinally located grooves in the form of a "dovetail", Fig.6 - section of the upper lattice, consisting of a fixed and movable lower parts.

The adsorber (Fig. 1) includes a vertical casing 1, the side walls 2 of which are zigzag, the sectional partitions 3 installed in it are perforated and zigzag and form in each section 4 diffusers 5 and confusers 6, which are staggered relative to neighboring sections. The sections are equipped with upper output and lower input 8 gratings. The purified gas is discharged through the outlet pipe 9, and the purified gas is introduced through the pipe 10, made in the form of a narrowing truncated cone.

On the inner surface of the gas inlet pipe 10 (FIGS. 2 and 3), consisting of an elastic material, there are screw-shaped longitudinally located grooves 11 between which in the direction from the larger base 12 of the gas inlet pipe 10 to its smaller base 13 at different horizontal levels around the perimeter in the form of concentric circles 14, 15, 16 (Fig. 4), exhaust ports 17, 18, 19 (Fig. 2, Fig. 3, Fig. 4) are made.

The outlet windows 17 have the same diameter at one horizontal level around the perimeter in the form of a concentric circle 14, the outlet windows 18 have the same, but slightly larger than the windows 17, the diameter at the same horizontal level around the perimeter in the form of a concentric circle 15. The same proportionality is observed with windows 19 on circle 16.

In this case, the smaller base 13 of the gas inlet pipe 10 is closed with an elastic material, and helical longitudinally located grooves 11 are made in the form of a "dovetail" (figure 5)

The upper 7 lattice (Fig.6) consists of a fixed 20 part rigidly fixed to the inner surface 21 of the pipe 9, for example, by means of stops or threaded connection, and a movable lower 22 part. The connection between the fixed upper 20 and the movable lower 22 parts of the upper lattice 7 is made flexible in the form of springs 23, peripherally mounted between them. The holes 24 in the upper 7 part of the lattice are made in the form of telescopic 25 cylinders, while the internal diameters of the cylinders 26 of the upper 20 parts are 2.0-2.5 times greater than the external diameters of the cylinders 27 of the lower 22 of the upper lattice 7. The fixed upper part 20 is fixed to the inner surface 21 of the pipe 9 by means of stops-protrusions 28 or a threaded connection.

The adsorber works as follows.

When backfilling a new, previously not in use adsorbing substance, for example KSM-5 silica gel, in section 4 of the vertical casing 1, the upper 7 detachable grate is installed in such a way that its upper 20 part is rigidly fixed to the inner surface 21 of the pipe 9, for example, by means of stops 28 or a threaded connection, and the lower 22 part is freely in contact with the bulk material of the adsorbing substance with a force equal to the compression value of the spring 23 in accordance with the condition determined by the absence of “twisting” of the adso grains biruyuschego substance under the action of the uplink (upward direction) of the flow of purified gas, i.e., coming from sections 4 to the upper 7 lattice, but not causing sealing forces that impede the mixing of the layers of the adsorbing substance in the adsorption process (see, for example, Serpionova EN Industrial adsorption of gases and vapors. M .: Higher school. 1969. - 388 s., ill)

The gas to be cleaned is supplied through a gas inlet 10 to the adsorber housing 1. As a result of the reduction in the cross section of the gas inlet pipe 10, made in the form of a narrowing truncated cone with screw-shaped longitudinally located grooves 11 located on its inner surface, an increase in the speed of the moving gas being cleaned occurs. The peripheral layers of the gas to be cleaned, moving along helical, longitudinally located grooves 11, twist, which leads to the rotation of the entire mass of the gas to be cleaned when the gas to be cleaned moves from a larger 12 to a smaller 13 base of the gas inlet 10.

As the gas rotates in the gas inlet pipe 10, it is released through the outlet ports 17, 18 and 19. It is known that the speed of the rotating cleaned gas due to the narrowing of the gas inlet pipe 10, made in the form of a narrowing truncated cone, increases as the flow passes from levels of concentric circles 14 to 15, from 15 to 16. Therefore, an increase in the diameter of the outlet windows 18 relative to the windows 17 and windows 19 relative to the windows 18 leads to a rational redistribution of the gas to be cleaned, entering the lower inlet grate 8.

A uniform plot of gas flow velocities in the cross section of the adsorber casing 1 at the outlet of the lower inlet grating 8 is supported by the living section of the outlet windows 17, 18 and 19, which is especially important for the peripheral zone of the adsorber casing 1, where the porosity of the adsorbent layer is higher than in it central part.

At the same time, an increase in the flow rate of the gas to be cleaned through the central part of the adsorber leads to ejection of gas from the wall zone of the casing 1, as a result of which the drying process is increased both by uniformly saturating the adsorbent layer over the cross section of the casing 1 and by increasing the degree of gas purification.

The gas to be cleaned with an optimal velocity diagram after the inlet lower grill 8, which ensures rational contact with the adsorber along the cross section of the housing 1, enters section 4 and, passing successively sections of the diffusers 5 and confusers 6, continuously changes its speed, which leads to flow turbulence and increase mass transfer, as well as redistribution in sections 4 of gas pressure. This equalizes the hydraulic resistance of the gas in sections 4 and ensures uniform gas washing of the entire volume of adsorbent. The purified gas from sections 4 enters the telescopic 25 cylindrical holes 24 and through the pipe 9 to the consumer.

If, according to operating conditions, there is a need to increase the amount of gas to be cleaned entering the adsorber, then the gas load increases and, accordingly, the gas pressure acting on the closed smaller base 13 of the gas inlet pipe 10. In this case, under the influence of the increased gas pressure on the closed smaller base 13 this base moves upward due to the fact that the material of the gas inlet pipe 10 is elastic, while the movement is carried out until a dynamic equilibrium between the elasticity m material and the pressure value of the purified gas.

Simultaneously with the movement of the smaller base 13, helical longitudinally located grooves 11 are stretched, retaining their shape as a dovetail, and the cross sections of the outlet windows 17, 18 and 19 increase in direct proportion to each horizontal level and uniformly along concentric circles 14, 15 and 16.

Consequently, in the process of changing the gas load, the independence of obtaining a uniform diagram of the velocities of the gas stream in contact with the adsorbent over the entire cross section of the adsorbent body 1 at the outlet of the lower inlet grating 8 is ensured.

As the gas flow moves during the cleaning process, the adsorbent grains as a result of friction in a fluidized state are destroyed and the volume when vertically filled into the housing 1 of the adsorbing substance decreases, i.e. an air gap appears between the upper adsorbent layer and the upper 7 lattice. Then, individual grains of adsorbent under the action of the flow of purified gas moving from bottom to top in sections 4 are torn off from the upper bulk layer and hit the upper 7 grating with increasing force (see, for example, Sedov L.I. Continuum Mechanics. - M.: Science 1990. - 537 pp., Ill.), Which intensifies their further destruction and, accordingly, leads to a subsequent decrease in the volume of the adsorbing substance. Therefore, the useful absorption surface of the grains of the adsorbent and the entire adsorbing mass in the housing 1 as a whole is reduced, and this, as is known, reduces the quality of the adsorption gas purification.

In the proposed technical solution, as the volume of the adsorbing substance in the housing 1 decreases, i.e. reducing its height in sections 4, the springs 23 are stretched, moving down the lower part 22 of the upper 7 lattice, which maintains a given seal of the absorbent substance, i.e. eliminates the formation of an air gap in front of the upper 7 grill.

The holes 24 in the upper 7 lattice are made in the form of hollow telescopic cylinders 25, while the hollow cylinder 27 of the lower part 22 of the upper lattice 7 leaves when moving down the lower part 22 from the hollow cylinder 26. The inner diameters of the cylinders 26 of the upper 22 of the part 2-2 5 times the outer diameters of the cylinders 27 of the lower 22 of the upper part of the grating 7, this ratio leads to the fact that the purified gas at the outlet of the hollow cylinders 27, suddenly expanding, sharply decreases its speed and temperature (Joule-Thomson effect, see, for example , Nashchokin V.V. Clinical Thermodynamics and Heat Transfer. M., 1980 .-- 469 p., ill.). This also allows you to normalize the flow of purified gas through the pipe 9 to the consumer both in pressure and temperature.

The originality of the proposed technical solution lies in the fact that the execution of the upper lattice is detachable in the form of two - upper and lower - parts and with the possibility of disintegration of the grains of the adsorbing substance in the adsorber body of the lower part, moving downward, removing the air gap in front of the upper lattice, maintains a given quality gas adsorption purification during long-term operation, due to intensive destruction of adsorbent grains, leading to a decrease in the height of the adsorbing substance and lower burning its absorption capacity.

Claims (1)

The adsorber, including a vertical casing, divided by perforated zigzag partitions into sections with the formation of staggered confusers and diffusers, upper and lower grilles and gas outlet and gas inlets, while the gas inlet is a tapered truncated cone of elastomeric material on the inner surface which has helical longitudinal grooves, and the grooves are structurally made in the form of a "dovetail", while in the direction of t of the larger base of the gas supply pipe to its smaller base, outlet windows are arranged uniformly on a horizontal level between helical longitudinally arranged grooves, having the same diameter at one horizontal level and increasing at subsequent horizontal levels as the gas to be cleaned moves from the larger base of the gas supply pipe to the smaller base , in addition, the smaller base of the gas supply pipe is drowned out by an elastic material, characterized in that the upper grate is made detachable and consists of a fixed upper part with a movable lower part, and the connection between the fixed upper and movable lower parts is flexible in the form of springs peripherally mounted between them, and the holes in the upper grill are made in the form of telescopic cylinders, while the inner diameters of the cylinders of the upper part 2.0-2.5 times the outer diameters of the cylinders of the lower part of the upper grill.

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