DE2248057A1 - METHOD AND DEVICE FOR REACTIVATING AN ABSORBENT MEDIUM - Google Patents

Description

Applicant ; Droogtechniek en Luchtbehandeling N «V · Rotterdam / Netherlands
Eieuw-Mathenessestraat 59-41

- »Method and device for reactivating an absorbent medium"

The invention relates to a method and a device for reactivating a medium that is used for the absorption of a Component of a gas or liquid mixture is used, according to which a hot gas passes through at the end of an absorption period the absorption medium is passed through, in the same direction as the mixture to be treated, whereupon then when the gas coming out again has a certain Temperature has reached, either the heating of this gas is interrupted or Tn "similarly cold gas is passed through with the same flow direction as long as until the temperature of the absorption medium on its entry side has dropped to a value that makes it suitable again for a subsequent re-absorption operation makes, whereupon the mixture to be treated can be passed through again.

309815/0819

ORIGINAL INSPECTK)

Methods of this type are used, for example, to free air from water vapor and thereby dry air to obtain. Such dry air may be needed, for example to keep moisture away from sensitive devices or other parts. This case is included, for example pneumatic control devices in which as a result of temperature fluctuations the moisture content of the air is reflected can, leading to work errors and even damage can lead. The same applies to various devices of other types that are sensitive to moisture, because moisture give rise to malfunctions or can even lead to damage. This is the case, for example, with electrical insulation faults.

Devices of & employed for the purpose mentioned ct example, an absorption vessel and a buffer tank may have two or container sets of this type are used alternately "the. This makes it unnecessary to interrupt the absorption process as soon as the absorption medium has absorbed so much of the constituent in question that further absorption from the miöchuhg is no longer possible to a satisfactory extent. in any case, the absorption medium is then reactivated. The remaining mixture is removed from the buffer vessel or the treatment is taken over by the other absorption group.

Although the case of the Drying of air is treated, it should be noted that.3 the same considerations for absorption of a desired Component from a gas or liquid mixture can also be carried out in the same way in other cases with reactivation of the absorption medium can.

For reactivating a drying air Absorption medium are already different arrangements known. In the oldest arrangements of this type, the air to be dried is in a certain direction through the He keeps ab s or ptions passed through. Then after an interruption the air flow heated outside air in the opposite direction Direction of flow passed through this container. This hot air creates an environment in which the vapor pressure is out of equilibrium, and it does so it is lower than the vapor pressure on the surface of the Absorption ediuiiis. As a result, the absorbed component becomes pulled out of the absorption medium. Here the disturbance of the equilibrium is the greater, the higher the Temperature of the air and the absorption medium. In this way, the absorbed moisture can essentially be removed, with the exception of a remaining amount, which corresponds to the .reringon relative humidity of the hot air

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BAi ORIGINAL

Here, the temperature at the inlet of the container (i.e. at the outlet of the hot air) is lower than the temperature of the supplied hot air, namely, the shorter the period of passage of the hot air, the lower it is.

A disadvantage here is that the higher the temperature, the lower the moisture absorption of the absorption medium is so that the hot absorption medium is then not yet suitable to be directly introduced into the drying process. To the absorption medium too cool, you can switch off the heating of the reactivating air, so that cold air is then blown through. However, a really sufficient cooling is not possible here because the cooling begins at the outlet end. Therefore, the cooling at the cooler inlet end is eret then effective when the temperature at the outlet end has become lower than that at the inlet end, around the temperature at the inlet end to a value at which a reasonable If moisture can be absorbed, the temperature at the outlet end must therefore be lower However, at a low temperature, moisture is extracted from the outside of the cooling air. Of the However, moisture content at the outlet end determines the minimum amount the moisture content of the air to be subsequently treated in this container. Hence a such excessive cooling is practically impossible.

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_ c

In the case of later devices, one has therefore gone over to carry out the reactivation in a parallel flow path, so that the hot air and also the cooling air "both at the inlet end of the absorption" are introduced. the cold air used to remove moisture is used for for a certain time until the Inlet temperature has reached a desired predetermined value.

Although this newer method already leads to more favorable results, it is nevertheless also according to this method. drive not possible, the residual moisture on a strived for to push the optimal low value down. As for the hot air, first during the reactivation process is passed through and through the inlet area of the Absorbing medium flows through, it follows that during the normal working process is saturated with moisture entry. If the / Lie flow then enters the colder area of the container, the result is here again that that moisture is again absorbed from the air. In this way a certain moisture transport takes place, namely from the inlet side to the outlet side, leaving a residual moisture content on the container he exit, the is larger than at the entrance of the container, unless you have the

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Passing hot air through for a long period of time expands. But this would be in connection with a then If the cooling period becomes longer, this will lead to an unacceptable increase in the duration of the reaction. Thus, the moisture difference remains during the Get cool beforehand.

In view of this, the invention is of the Task assumed to eliminate the disadvantages described, but without the duration of the Realrtivierungsvorgangs to extend. This inventive method is thereby marked that after done on the entry side Cooling of the absorption medium continues to pass cold air, which is then passed through Gas is dried in this area, except for the absorbed component on the exit side of the absorption medium is completely removed.

To carry out this method according to the invention, the reactivating device is first of all equipped with a clock equipped, which is used to control the duration of the passage of cold air. It is essential that this The clock can be set to a period longer by such an amount as is the minimum required

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Requires cooling time, namely so that with the cold Gas an ITach reactivation of the exit area of the absorbent Medium is achieved. , '

To illustrate the concept of the invention, further details are explained with reference to the drawing.

Pig, 1 schematically represents an arrangement that is used for Air drying or similar purposes.

Figures 2 and J are simplified representations for explaining the offense in two previous methods.

4, illustrated in a corresponding representation the additional process step to be carried out according to the invention.

Figure 1 is a simplified schematic of one for drying of air serving device in which the pumps for the passage of the air as well as the monitoring and measuring devices are omitted unless they are required for an exhaustive explanation of the process.

In this example, the outside air to be dried enters through the supply line 1 and is then via a

30981-5- / 0819

Ufiie ehalt valve 2 to the inlet 3 of the absorption container β 4 continued. This air leaves the container 4 through the outlet 5 and flows through a second Dme ehalt valve 6 through a line 7 to the one for which the dried Air is needed.

Simultaneously with this operation, outside air flows via a feed line 1 'to a heater 8 and is passed around ehalt valves 2 of the lead au 3 · a second Ab s or pt ions maintains it s 4 ¹ from there through a second channel of the. The outlet 5 ^{1 of} this container 4 * leads via a second channel of the switching valve 6 and via a line 9 back to the outside air.

In this way, the air that is passed through the container is dried, while the absorbent medium in the container 4 * is reactivated by the hot air. If the interconnected TentiIe 2 and 6 are switched over, the containers 4 and 4 * swap their places within the circuit. It should be pointed out that in the arrangement according to fig. 1 reactivation takes place in direct current. However, reactivation in countercurrent can also easily be achieved by a simple switchover. In this case the hot air flows from 5 to 3 or from 5 to 3.

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In Figures 2 and 3, two known methods are followed schematic representations illustrated. The rectangle means here an absorption container. Cold air currents are indicated by arrows with bright arrowheads and hot, air currents through arrows filled with black ( arrowheads »in the lower half of each Rectangle is the state of absorption of the absorbent Medium and the temperature in the upper half. The changes in state are from these graphical representations visible, of course only in rough approximation. Diagrams A show the normal working position, i.e. the state during the Drying process. Diagrams B illustrate the Reactivation by hot air and graphs G the cooling of the absorbent medium.

Pig. 4 illustrates an additional process step for this purpose, namely those according to the present invention.

Fig. 2 relates to a known method, namely a counter-current method. When using this procedure, the Reactivation is entirely satisfactory, since the moisture content at outlet 5 can reach approximately zero. the Cooling down, however, worsens this picture, as the cold one

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Air in the hotter area is warmed up, thereby cooling down is deteriorated in the colder area 3. If this cooling process is carried out for too long, then results in the one in Pig. 2 c shown state in which at the end of 5 the temperature has dropped to such an extent that moisture is again absorbed from the cooling air in this case 3 instead of one can end up Absorption can even result in an excretion of moisture. At the outlet end 5, at which during the normal Drying s experiences the minimum of moisture content of the dried air, then there is too much moisture for the reason mentioned.

In comparison, FIG. 3 also illustrates a known, but working in direct current process. During reactivation, end 3 is the hotter end, so at this end the strongest moisture excretion takes place. However, some of the moisture can then be absorbed again at the end 5, which is initially the cooler end. Fig. 2c illustrates the distribution at the point in time to which the temperature at the inlet end 3 is sufficiently lowered so that there the normal drying process according to FIG. 3 A can be done. The moisture is not completely expelled in the area of the end 5.

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The method according to the invention goes τοη the state according to i> dg. 2 c off. In the context of this, Pig illustrates. 4 a 7-step driving step which is carried out after the cooling and after the reactivation, that is to say the additional method step according to the invention which is based on the cooling according to Pig. 2 C. This "consists in continuing the passage of cold air. Here, the humidity was promoted by the additional cooling air in the colder area near the inlet end 3 , which is now suitable for the normal drying process * The dry air is then in dec days absorb the remaining moisture from the warmer areas, as a result of which an optimal 1 reactivation takes place - especially at the outlet end 5. The temperature continues to decrease ♦ If the j

Then return the absorption container to the drying cycle is switched on, the emerging dry air has a much lower temperature than in the case according to pig * 3 C * The arrangement according to Pig. 1, for the direct current method * according to pig. 3 is determined, points to which the reactivating air

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leaving end 9 or in its vicinity additionally one Thermostat 1o open. This works in such a way that he at If the air temperature rises above a limit value, the heater 8 turns off * In addition, is. a timer 11 provided ι | which then becomes active when, after a sufficient period of time for cooling, according to Pig. 3 C the termination of this process -,

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becomes necessary. This timer interrupts the flow of air at point 1 'by switching off the air pump. Then when the normal absorption period in the other container has ended, the valves and 6 switched either manually or by the timer 11, in the sense that the heater 8 then again is put into operation.

According to the invention, this timer 11 is now made effective in such a way that the cooling process for a certain Time is continued until the state according to Pig. 4 results. E3 is also possible in a existing arrangement according to Pig. 1 an additional time switch must be provided, which at the end of the switching period of time 11 causes the cooling process to continue.

In this way, there is an improved reactivation of the absorbent medium, namely by a relatively short extension of the cooling period, namely in the way that when the process begins, the steps of the Absorption the temperature of the air treated in this way is lower.

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It is also possible to mark points 9 and 1 'during the Reactivation with each other ', namely by switching on a cooling device in such a way that the reactivation air circulates in a closed K ice. This cooler would then have to be equipped with a device that collects and separates the condensation water. This is favorable, especially during the period after the cooling according to FIG. 4, because then it retains less moisture in the relevant absorption is initiated. This is particularly important when the surrounding air has a high moisture content. -

As already pointed out at the beginning, the invention is not limited to those devices that are used for drying Air, but the basic idea of the invention can also be used with benefit in all other cases, in which similar conditions exist.

-H-

309815/0819

Claims (4)

Claims 1. Process for reactivating a medium which is used for the absorption of a constituent of a gas or liquid s mixture is used, according to which at the end of an absorption period a hot gas through the absorption medium in the in the same direction as the mixture to be treated is passed through and then when it comes out again Gas has reached a certain temperature, either the heating of this gas is interrupted or > Certainly cold gas with the same direction of flow is passed through until the temperature of the Absorption medium on its inlet side to a value has dropped that it is for a subsequent operation makes re-absorption suitable again, whereupon the mixture to be treated can be passed through again, characterized in that it is done on the entry side Cooling of the absorption medium continues to pass cold air, which is then passed through Gas is dried in this area, except for the absorbed component on the exit side of the absorption medium is completely removed. - 15 - 30931 S / 08 19th 2. The method according to claim 1, characterized in that at least after cooling of the absorption medium the gas is diverted to the inlet of the container via a cooler. 3. Apparatus for performing the method according to claim 1 or 2, in which at least one container containing the absorption medium is provided, which has a supply line and, a discharge line for the passage of a gas or Has liquid mixture, which also has switches is equipped to switch the supply line and the discharge of the mixture to be treated as well as the Reactivation gas are used, the connecting line for the latter is equipped with a gas heater and a temperature sensor located at the outlet of the container and is used to switch off the gas heater as soon as the outgoing reactivation gas has reached a predetermined level Has reached limit temperature, also with a timer that then takes effect and the supply of cold reacting gas switches off after a period of time measured for the cooling of the absorption medium, characterized in that that this timer is set to a period of time which is the period required for cooling by such Amount exceeds that with the cooled gas a subsequent reactivation in the exit area of the absorbent Medium we achieve do -1ο- 303815 / ^ 813 4. Apparatus according to claim 3, characterized in that the cooler is within the reactive! Erungskreislaufs between the outlet of the absorption container and the inlet of the reactivating gas, in such a way that the reactivating gas can be circulated in a closed circuit, the cooler serves to condense that component that is absorbed by the reactivating gas. 0 9 8 15/0 ί, ί: 1 9 Blank page