DE4220386C2 - Adsorption device - Google Patents

Description

The invention relates to an adsorption Direction according to the preamble of claim 1.

Devices and systems of this type are known for example from US-PS 44 09 006 or SE-A-76 07 577. In these known plants the components containing the adsorbent  as circulating in appropriate resting containers, barrel-like systems. It is easy to recognize that with this known design with regard to the drive, storage and Sealing this relatively large and heavy, circulating parts arranged in the container enormous techni there are difficulties or a high building effort for a practicable solution drive is.

These disadvantages described above by a new to eliminate such a system in a simple manner is therefore the object of the present invention.

This task is generally solved by the structural means specified in claim 1 and technical measures. The Unteran sayings contain advantageous further developments and structural features of the technical teaching of the inventive concept, which is also based on a drawing from the system shown and based on this representation in the following is explained in more detail.  

The drawing shows in a largely schematic Representation in

Fig. 1 shows a longitudinal section through the new device in view,

Fig. 2 shows a cross section to Fig. 1 as a plan view along the line AA and

Fig. 3 as a single part a top view of one of the rotary valve.

The new adsorption device according to FIGS. 1 and 2 is particularly distinguished from the prior art in terms of construction in that the adsorbent bed 3 has a vertical partition walls 4 in a corresponding container 1 in circular sectors I, II, III. . . Unterteil tes, fixed bed forms, above and below this bed 3 there is a rotary valve 5 , both of which rotate synchronously to each other and separate chambers A, B, C with corresponding end connections A ₁ , B ₁ , C ₁ and Durchgangsöffnun gene A ₂ , B ₂ , C ₂ for the respective media (exhaust gas "AL", desorbent "DM", cooling air "KL") to the adsorbent bed 3 out.

These two rotary valves 5 also have vertical 5 a or inclined 5 b chamber walls and thus represent a spatial structure which, together with the chambers A, B, C and connecting pieces A ₁ , B ₁ , C _{1, are constructed} identically and mirror-inverted to one another is arranged.

In addition, the two rotary valves 5 are connected to each other via a rotating shaft 6 , the latter being formed at least in the area of the input rotary valve 5 as a hollow shaft 6 a with at least one lateral outlet opening 6 b.

The overall structure of the device is further characterized in that the adsorbent medium bed 3 containing container 1 is preferably arranged vertically and top and bottom via a z. B. conical container area 1 a is tapered to a neck 1 b, and that to this neck 1 b each consists of a flange 2 , side wall 2 a and cover plate 2 b connecting housing for receiving and guiding the respective rotary valve 5th serves.

So that the fill 3 is also accessible from the outside, the upper conical container area 1 a should also be designed as a removable cover 7 .

The mode of operation or the workflow in this previously described new device is here the following:

According to the embodiment of FIG. 2, the fixed, from the z. B. formed from activated carbon adsorbent bed 3 , bed divided into 48 sectors in which the bed height of the bed can be varied.

The synchronously rotating rotary valve 5 are shown in Fig. 1 and 3 three separate chambers A, B, C, together with appropriate connecting piece A _1, B _1, C ₁ and media passage openings A _2, B _2, C _2. During the slide rotation or the slide circulation "U", the sectors of the bed 3 located under the respective chambers are now flowed through with the respective gas station AL, DM and KL, the sequence A, B, C being maintained. At continuous speed of the slider 5 there is thus a constant execution of the work program in the individual sectors.

Reference number index

1 container
1 a conical area
1 b neck
2 flange
2 a side wall
2 b cover plate
3 adsorbent fill
4 vertical partitions
5 rotary valves
5 a chamber wall (vertical)
5 b chamber wall (inclined)
6 revolving axis or shaft
6 a hollow shaft
6 b opening (side)
7 lids
A Chamber for adsorption gas flow
B Chamber for desorption gas flow
C Chamber for cooling gas flow
A₁, B₁, C₁ connecting piece
A₂, B₂, C₂ passage opening
I, II, III. . . Circular sector
U direction of rotation
AL exhaust gas, exhaust air
The desorbent
KL cooling air
RL clean air

Claims (6)

1. Adsorption device for cleaning pollutant-containing exhaust air primarily from industrial plants, this exhaust air continuously by an from an adsorbent such. B. activated carbon and the like existing fill is passed and the latter is then flowed through in a continuous manner by a desorption and then again by a coolant, characterized in that
that the adsorbent bed ( 3 ) forms a fixed bed divided by vertical dividing walls ( 4 ) in a corresponding container ( 1 ) into circular sectors (I, II, III...),
and above and below this bed ( 3 ) there is a rotary slide valve ( 5 ), which rotate synchronously to each other and separate chambers (A, B, C) with corresponding end connections (A ₁ , B ₁ , C ₁ ) and through openings (A ₂ , B ₂ , C ₂ ) for the respective media (exhaust gas "AL", desorbent "DM", cooling air "KL") towards the adsorbent bed ( 3 ). 2. Adsorption device according to claim 1, characterized in that the two rotary valves ( 5 ) together with their chambers (A, B, C) and connecting pieces (A ₁ , B ₁ , C ₁ ) are of identical construction and are arranged in mirror image to one another. 3. Adsorption device according to claims 1 and 2, characterized in that the rotary valve ( 5 ) by corresponding vertical ( 5 a) or inclined ( 5 b) chamber walls represent a spatial structure. 4. Adsorption device according to claims 1 to 3, characterized in
that the adsorbent bed ( 3 ) ent holding container ( 1 ) is preferably arranged vertically and
head and bottom side via a z. B. conical container area ( 1 a) to a neck ( 1 b) is tapered,
and that to this neck ( 1 b) each consists of a flange ( 2 ), side wall ( 2 a) and cover plate ( 2 b) existing housing, which serves to receive and guide the respective rotary valve ( 5 ). 5. Adsorption device according to claims 1 to 4, characterized in that the two rotary valves ( 5 ) are connected to one another via a rotating shaft ( 6 ). 6. Adsorption device according to claim 5, characterized in that the shaft ( 6 ) in the region of the rotary valve ( 5 ) as a hollow shaft ( 6 a) with at least one lateral outlet opening ( 6 b) is formed.