DE19905099A1 - System for dividing of gaseous mass flow involves dividing gas in the adsorption container of a deflector-support - Google Patents

Abstract

The gas dividing system in the adsorption container (1) consists of a deflector-support arrangement (2,4;3,5). Distribution system comprises an adsorber container with one or several inlet/outlet supports and a charge located in a container inner chamber for adsorbing carbon dioxide and moisture from the process air. Each inlet support is connected to the inner chamber of the adsorption container arranged in axial direction of the container and to pipe manifold system provided with outlets in the form of perforations or slits for distributing gaseous mass flow in axial direction of the container.

Description

The invention relates to a system and a method for distributing gaseous mass flows in horizontal, cylindrical adsorption containers of air separation plants.

For the intended use of process air in air separation plants the carbon dioxide and moisture must be removed from this. To for this purpose u. a. horizontal cylindrical pressure vessel with or several inlet and outlet nozzles, with one inside the container arranged pipe distribution system and also in the container interior located adsorbent bed used. Every inlet nozzle is there with the arranged in the container interior in the axial direction of the container and with Outflow openings in the form of holes or slots Pipe distributor system connected. For adsorbing the process air carbon dioxide / moisture contained in the process air through each of the lower inlet connection in that connected to each inlet connection Pipe distributor system initiated and through the outflow openings in the Container interior stored stored adsorbent. The of Process air freed of carbon dioxide and moisture leaves the adsorption container over each upper outlet nozzle.  

In order to maintain the functionality of the adsorber, its must Fill be regenerated before reaching the breakthrough limit. For Regeneration of the adsorber is usually the regeneration gas used dry nitrogen, through each of those now serving as inlet ports upper nozzle through that connected to each of these nozzles Pipe distributor system via its outflow openings in the form of slots or Holes fed to the bulk stored inside the container. That with Regeneration gas enriched with carbon dioxide and moisture is produced by the lower nozzle derived from the adsorption tank.

The bed must have a uniform, homogeneous air volume flow be applied to ensure their function. It is over To realize the lowest possible pressure loss for reasons of economy. The in the known adsorption formed in the manner described above Pipe distribution system used in containers does not meet these requirements required dimensions and is also technically complex and therefore expensive.

Based on the problem described above, the invention is therefore based on the task of a system and a method for uniform, homogeneous distribution of gaseous mass flows in horizontal, cylindrical adsorption tanks of air separation plants with a simple, reliable and inexpensive gas distributor available put.

According to a first teaching of the invention, this object is achieved in that the gas distribution system located in the adsorption container from one Flapper-nozzle arrangement exists.

According to the invention each baffle plate is in the adsorption container assigned nozzle and to the between two baffles in one Support structure of the stored bed arranged parallel spaced apart.  

The rectangular baffle plates arranged in this way in the adsorption container consist of a metallic material, preferably an RSt37-2 Steel and have a multiple length of the axial container direction Diameter of the assigned nozzle and close in radial Container direction with the inner wall of the adsorption container. The The baffle plates are stored on the inner wall of the adsorption container with metallic support elements, preferably with round bars.

The advantage of the system according to the invention for the distribution of gaseous mass flows in horizontal, cylindrical adsorption containers of air separation plants lies in particular in the fact that the baffle plate connection arrangement with the adaptable baffle plate design ensures a uniform gas distribution in the axial direction of the container and thus a uniform, homogeneous outflow of the Bulk and a minimal pressure loss is guaranteed. Thus, with the baffle plate distribution system according to the invention for gaseous mass flows in lying, cylindrical adsorption containers of an air separation plant, the pressure loss was reduced by approx. 15% when using a process air volume flow of 240,000 Nm ³ / h.

According to a second teaching of the invention, this relates to a method for Distribution of gaseous mass flows in horizontal, cylindrical Adsorption containers of air separation plants, for the removal of Carbon dioxide and moisture from the process air, including the gaseous one Mass flow through one or more inlet ports of the adsorption container through a connection to each inlet connection and inside the container arranged and with outflow openings in the form of holes or slots trained pipe distributor system in the container interior in one Support structure stored and that contained in the process air Carbon dioxide / moisture adsorbing bed is fed and after  their flow through each outlet connection from the adsorption container is derived.

According to the second teaching of the invention, the stated object is for a Such known method is solved in that by one of the two Neck gaseous mass flow introduced into the adsorption container one arranged parallel to the respective associated nozzle spaced apart Baffle plate evenly distributed in the axial direction of the container and then the stored between the two baffle plates in a support structure adsorbent bed as a uniform, homogeneous volume flow is supplied as well as after their release of carbon dioxide and moisture flowing through and then flowing around each opposing baffle plate, through one of the two nozzles from the Adsorption container flows out.

For adsorbing carbon dioxide and moisture from the gaseous Mass flow forming process air, this is through the lower nozzle in the Adsorption container initiated and through the parallel to the lower neck spaced baffle plate uniform in the axial direction of the container distributed.

The process air distributed in the container in this way then flows through the Filling between the two baffle plates in the support structure as a uniform, homogeneous air volume flow with release of carbon dioxide and moisture and subsequently flows around the top baffle the upper nozzle out of the adsorption container.

The necessary for the trouble-free operation of the air separation plant cyclic adsorber regeneration becomes the gaseous mass flow forming regeneration gas, usually dry nitrogen, through the top The nozzle is introduced into the adsorption container and through to the upper nozzle parallel spaced upper baffle plate in the axial direction of the container  distributed, as a uniform, homogeneous volume flow through the between the two baffle plates arranged with absorption of carbon dioxide and Moisture and subsequently passed around the lower baffle and then flows out of the adsorption container through the lower nozzle.

For adsorbing carbon dioxide and moisture from the process air and for Desorbing the bed of the adsorption container is two each Adsorption container connected in parallel.

The invention is described below in connection with that in the drawing illustrated preferred embodiment explained in more detail.

The drawing shows in section a conventional horizontal, cylindrical adsorption container 1 of an air separation plant, not shown, with a baffle plate 2 arranged parallel to a lower connection piece 4 and a baffle plate 3 arranged parallel to an upper connection piece 5, and with one between the lower and upper baffle plate 2 , 3 in an overlay construction 7 , adsorbent bed 6 . Each of the two rectangular baffle plates 2 , 3 of the exemplary embodiment shown in the drawing is made of RSt37-2 sheet steel and has a multiple length in the axial direction of the container and a multiple width in the radial direction of the container of the respectively assigned circular connector 4 , 5 . Each of the baffle plates 2 , 3 is arranged at a parallel distance from the respectively assigned connection piece 4 , 5 and from the adsorbent bed 6 stored in the support structure 7 . Each baffle plate 2 , 3 closes in the radial direction of the container with the inner wall of the container, on which it is supported with metallic support elements (not shown in the drawing) in the form of round rods.

For adsorbing carbon dioxide and moisture from the process air, the process air flowing through the lower nozzle 4 into the adsorption container 1 is distributed in the axial container direction by the baffle plate 2 arranged parallel to the lower nozzle 4 and then the adsorbent bed 6 stored in the support structure 7 is more uniform , homogeneous air volume flow supplied. When flowing through the bed 6 , the carbon dioxide contained in the process air and the moisture is adsorbed by the latter. The process air treated in this way flows around the upper baffle plate 3 through the upper nozzle 5 out of the adsorption container 1 . For the cyclical regeneration necessary for the trouble-free operation of the air separation plant, the regeneration gas forming the gaseous mass flow, usually dry nitrogen, is introduced into the adsorption container 1 through the upper connection 5 and evenly in the axial direction of the container through the baffle plate 3 arranged parallel to this connection 5 distributed. The regeneration gas distributed in this way then flows through the adsorbent bed 6 arranged in the support structure 7 as a uniform, homogeneous volume flow, the carbon dioxide / moisture present in the bed 6 being adsorbed by the regeneration gas and thus being removed from the bed 6 . The regeneration gas enriched in this way with carbon dioxide and moisture then flows around the lower baffle plate 2 and then flows out of the adsorption container 1 through the lower nozzle 4 .

For adsorbing carbon dioxide and moisture from the process air and for desorbing the bed 6 , two of the adsorption containers 1 shown in the drawing are connected in parallel.

List of reference symbols

1

Adsorption container

2nd

Baffle plate below

3rd

Baffle plate above

4th

Neck below

5

Neck above

6

Bulk / adsorbent

7

Support construction

Claims (9)

1. System for the distribution of gaseous mass flows in horizontal, cylindrical adsorption containers of air separation plants, for the removal of carbon dioxide and moisture from the process air, consisting of the adsorption container with one / more inlet / outlet nozzle and one stored in the container interior, the carbon dioxide and the moisture of the process air adsorbing bed, each inlet connection being connected to a pipe distributor system arranged in the axial container direction within the adsorption container and provided with outflow openings in the form of holes or slits for the purpose of gaseous mass flow distribution in the axial container direction, characterized in that the gas located in the adsorption container ( 1 ) Distribution system consists of a baffle-nozzle arrangement ( 2 , 4 ; 3 , 5 ). 2. Distribution system according to claim 1, characterized in that in the adsorption container ( 1 ) each of the baffle plates ( 2 , 3 ) is arranged parallel spaced from the respectively associated nozzle ( 4 , 5 ). 3. Distribution system according to claim 1 or 2, characterized in that in the molecular sieve adsorption container ( 1 ) each of the baffle plates ( 2 , 3 ) to the, between the two baffle plates ( 2 , 3 ) in a support structure ( 7 ) stored, adsorbent bed ( 6 ) is spaced in parallel. 4. Distribution system according to one of claims 1 to 3, characterized in that each of the rectangular, in the axial direction of the container a multiple length of the diameter of the associated socket ( 4 , 5 ) and in the radial direction of the container with the inner wall of the container and supported on this baffle plate ( 2 , 3 ) consists of a metallic material, preferably steel. 5. Distribution system according to claim 4, characterized in that each baffle plate ( 2 , 3 ) is mounted on the inner wall of the container with metallic support elements, preferably with round bars. 6.Procedure for the distribution of gaseous mass flows in horizontal, cylindrical adsorption containers of air separation plants, for the removal of carbon dioxide and moisture from the process air, for which purpose the gaseous mass flow through one / more inlet connections of the adsorption container through a connection connected to each inlet connection and arranged in the container interior as well as with outflow openings In the form of holes or slits, the pipe distributor system is supplied to the bed stored in the interior of the tank and the carbon dioxide / moisture adsorbing bed contained in the process air, and is discharged from the adsorption tank after it has flowed through one or more outlet ports, characterized in that the bed two connecting pieces (4, 5) in the adsorption vessel (1) introduced gaseous mass flow separated by a assigned to each fitting (4, 5) arranged parallel to the baffle plate (2, 3 ) evenly distributed in the axial direction of the container and fed to the adsorbent bed ( 6 ) stored between the two baffle plates ( 2 , 3 ) in a support structure ( 7 ) as a uniform, homogeneous volume flow, and after the flow of carbon dioxide and moisture, and then flowing around the opposing baffle plate ( 2 , 3 ), through one of the two connecting pieces ( 4 , 5 ) from the adsorption container ( 1 ). 7. The method according to claim 6, characterized in that for adsorbing carbon dioxide and moisture from the process air forming the gaseous mass flow, this is introduced through the lower nozzle ( 4 ) into the adsorption container ( 1 ) and parallel to the lower nozzle ( 4 ) spaced-apart baffle plate ( 2 ) is evenly distributed in the axial direction of the container and then flows through the adsorbent bed ( 6 ) stored between the two baffle plates ( 2 , 3 ) in the support structure ( 7 ) as a uniform, homogeneous air volume flow with the emission of carbon dioxide and moisture and subsequently around the upper baffle plate ( 3 ), through the upper nozzle ( 5 ) from the adsorption container ( 1 ). 8. The method according to claim 6, characterized in that for desorbing the bed loaded with carbon dioxide and moisture ( 6 ) a gaseous volume flow forming regeneration gas, preferably dry nitrogen, introduced through the upper nozzle ( 5 ) into the adsorption container ( 1 ) and through the baffle plate ( 3 ), which is spaced parallel to the upper connection piece ( 5 ), is evenly distributed in the axial direction of the container, and then the adsorbent bed ( 6 ) stored between the two baffle plates ( 2 , 3 ) as a uniform, homogeneous volume flow with the inclusion of the flows through the bed ( 6 ) enriched carbon dioxide / moisture and is subsequently passed around the lower baffle plate ( 2 ), through the lower nozzle ( 4 ) from the adsorption container ( 1 ). 9. The method according to any one of claims 6 to 8, characterized in that for adsorbing carbon dioxide and moisture from the process air and for desorbing the bed ( 6 ) each have two with the baffle-nozzle arrangement ( 2 , 4 ; 3 , 5th ) trained adsorption container ( 1 ) are connected in parallel.