JPH09113073A - No gas removing method in absorption refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To hold high vacuum in an absorption refrigerator without maintenance and to reduce the fear of corrosion of a pipe and the like by removing the moisture from adsorbent before a vessel filled with the adsorbent is set. SOLUTION: The adsorbent chamber 4 in which adsorbent 5 is filled is installed in a constant-temperature oven 10. The oven 10 is heated to about 100 to 120 deg.C therein to evaporate the moisture, and the chamber 4 is pressure- reduced from the exit of the chamber 4 by a vacuum pump 12 via a pipe 11 to discharge the steam from the adsorbent 5. Thus, to remove the NO gas from the adsorber 5, the absorption refrigerator can be maintained in high vacuum therein. Further, it can be conducted without maintenance.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a NO gas removing device in an absorption refrigerating machine containing a nitrate or a nitrite in an absorbing solution, and more particularly to a NO gas removing device in which the performance of an NO gas adsorbent is improved. The present invention relates to a NO gas removing device.

[0002]

2. Description of the Related Art When an absorption solution of an absorption refrigerator contains nitrate or nitrite, NO (nitrogen monoxide) gas, which is a noncondensable gas, is generated by corrosion or the like in the absorption refrigerator. This NO gas must be removed to reduce the degree of vacuum in the apparatus. Conventionally, the removal of the NO gas is generally performed by maintenance. With respect to hydrogen gas as a non-condensable gas, there is a method of discharging the hydrogen gas outside the absorption refrigerator using a palladium cell, but this method cannot be applied to NO gas. Except for the hydrogen gas, it can be discharged by an ejector method using cold / hot water, cooling water or the like.

[0003]

If the NO gas is removed by bleeding maintenance every time the degree of vacuum in the absorption refrigerator decreases, the use efficiency is low and the use cost is increased. On the other hand, in the ejector system using cold and hot water, in the case of NO gas, when it is exhausted, it is oxidized in the air to become NO ₂ gas, and since this NO ₂ gas dissolves in the cold and hot water, its pH decreases. As a result, there is a problem that the pipes and the like are corroded.

Accordingly, an object of the present invention is to provide an NO gas removing apparatus in an absorption refrigerator which can maintain a high vacuum inside the absorption refrigerator without maintenance and is less likely to corrode pipes and the like. . Further, an object of the present invention is to prevent the NO gas adsorbent from being in constant contact with water vapor in the absorption refrigerator and / or to remove water in the adsorbent in advance to improve the adsorbent performance of the adsorbent. An object of the present invention is to provide a NO gas removing device in an absorption refrigerating machine.

[0005]

In order to achieve the above object, the structure of the NO gas removing device in the absorption refrigerator according to the present invention is as follows. That is, in the NO gas removing device of the absorption refrigerator containing the nitrate or nitrite in the absorption solution, the gas storage chamber of the absorption refrigerator and / or
Alternatively, the absorbent is provided with an adsorbent that chemically adsorbs NO gas.

[0006] In addition, NO gas is stored in the gas storage chamber and / or absorber of an absorption refrigerator containing nitrate or nitrite in the absorption solution.
In an NO gas removal device in an absorption refrigerating machine provided with an adsorbent that chemically adsorbs gas, an electromagnetic on-off valve is provided between a container filled with the adsorbent and the gas storage chamber and / or the absorber. And, a pressure sensing switch is provided in the gas storage chamber and / or the absorber, and when the pressure sensing switch reaches a predetermined pressure or more, the electromagnetic on-off valve is opened to open the gas storage chamber and / or the absorber and the absorbent. Gas is allowed to flow between the container and the filling container.

Further, N is contained in the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or the nitrite in the absorbing solution.
In a NO gas removing device in an absorption refrigerator provided with an adsorbent that chemically adsorbs O gas, an electromagnetic opening / closing valve is provided between a container filled with the adsorbent and the gas storage chamber and / or the absorber. When the operation of the absorption refrigerator is stopped, gas is prevented from flowing from the gas storage chamber and / or the absorber side to the absorbent-filled container.

Then, N is contained in the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or nitrite in the absorbing solution.
In an NO gas removing device in an absorption refrigerator having an adsorbent that chemically adsorbs O gas, the adsorbent is adsorbed and held from the adsorbent before the container filled with the adsorbent is set. I tried to remove water.

Further, NO is contained in the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or the nitrite in the absorbing solution.
In an NO gas removal device in an absorption refrigerating machine provided with an adsorbent that chemically adsorbs gas, before setting the container filled with the adsorbent, heating the absorbent-filled container and introducing the inlet / outlet pipe of the container The inside of the container was decompressed with a vacuum pump to remove water vapor from the adsorbent in advance.

Furthermore, NO gas in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in the gas storage chamber and / or the absorber of the absorption refrigeration machine containing nitrate or nitrite in the absorbing solution. In the removal device, before setting the container filled with the adsorbent, the inert gas is passed through the container while heating the absorbent-filled container so that the water vapor in the adsorbent is removed in advance. It is characterized by having done.

The present invention has the above-described structure, and an absorption refrigerator containing a nitrate or a nitrite in an absorption solution generates NO gas in the inside of the absorption refrigerator, but this NO gas is absorbed in the gas storage chamber and / or the absorption chamber. It is chemically adsorbed and removed by the NO gas adsorbent in the vessel. Therefore, the high vacuum in the machine is maintained. Moreover, it is maintenance free.

Further, NO is contained in the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or the nitrite in the absorbing solution.
In an NO gas removal device in an absorption refrigerating machine provided with an adsorbent that chemically adsorbs gas, an electromagnetic on-off valve is provided between a container filled with the adsorbent and the gas storage chamber and / or the absorber. When the operation of the absorption refrigerator is stopped, gas is prevented from flowing from the gas storage chamber and / or the absorber side to the absorbent-filled container, and the container filled with the adsorbent and the gas storage chamber and / or An electromagnetic on-off valve is provided between the gas storage chamber and / or the absorber, and a pressure sensing switch is provided on the gas storage chamber and / or the absorber. When the pressure sensing switch reaches a predetermined pressure or more, the electromagnetic on-off valve is opened to open the gas Since the gas is allowed to flow between the storage chamber and / or the absorber and the absorbent-filled container, the NO gas adsorbent does not always come into contact with water vapor. As a result, it is possible to prevent deterioration of the adsorption performance of the adsorbent.

Then, N is added to the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or the nitrite in the absorbing solution.
In an NO gas removing device in an absorption refrigerator having an adsorbent that chemically adsorbs O gas, the adsorbent is adsorbed and held from the adsorbent before the container filled with the adsorbent is set. To remove water, specifically, before setting the container filled with the adsorbent, while heating the absorbent-filled container, reduce the pressure in the container from the inlet / outlet pipe of the container with a vacuum pump, In order to remove water vapor in the adsorbent in advance, and before setting the container filled with the adsorbent, by heating the absorbent-filled container and passing an inert gas into the container, the adsorbent is pre-adsorbed. Since the water vapor in the agent is removed, the adsorption performance of the NO gas adsorbent can be improved.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 2 denotes a gas storage chamber of an absorption refrigerator, and NO gas, which is an incondensable gas generated from nitrate contained in an absorption solution, is finally sent and stored here. . An adsorbent 5 for chemically adsorbing NO gas is provided in the gas storage chamber 2. In the present embodiment, the adsorbent 5 is made of activated alumina impregnated with potassium permanganate, which is a substance that chemically adsorbs NO gas, and is filled in the adsorbent chamber 4 which is an absorbent filling container. It is a structure. The adsorbent chamber 4 communicates with the gas storage chamber 2 via a pipe 6. The pipe 6 is provided with the valve 3. Therefore, if the adsorbent chamber 4 is of a cassette type, the valve 3 can be closed and replaced easily. Reference numeral 1 indicates a gas purger. The gas purger 1 is connected to the gas storage chamber 2 by a pipe 7 so that a non-condensable gas such as NO gas is sent to the gas storage chamber 2 for storage.

Next, the operation of this embodiment will be described. The non-condensable gas generated in the absorption refrigerator is sent to the gas storage chamber 2. The NO gas stored here is chemically adsorbed on the adsorbent 5 in the adsorbent chamber 4 through the pipe 6. Since the NO gas once adsorbed by the chemical adsorption does not desorb, the NO gas in the gas storage chamber 2 is gradually adsorbed and removed, whereby the degree of vacuum in the absorption refrigerator is maintained at a high vacuum. In addition, no bleeding maintenance is required. When the amount of adsorbent is saturated, the NO gas can be constantly removed by replacing the adsorbent with a new adsorbent.

In FIG. 2, the gas storage chamber 2 of the absorption refrigerating machine and the absorbent filling container 4 are constantly connected to each other, and steam or N
This is an example in which the O gas and the adsorbent are prevented from coming into contact with each other except when necessary. The same members as those in FIG. 1 are denoted by the same reference numerals. NO gas, which is a non-condensable gas generated from nitrate contained in the absorption solution, is finally sent to the gas storage chamber 2 through the pipe 7 through the gas purger 1 provided in the absorption refrigerator. At this time, water vapor is also introduced from the gas purger 1 at this time. The gas storage chamber 2 is connected through a pipe 6 to an adsorbent chamber 4 which is an absorbent filling container, and an adsorbent 5 for chemically adsorbing NO gas is provided in the adsorbent chamber 4. ing. In this embodiment, the adsorbent 5 is made of activated alumina impregnated with potassium permanganate, which is a substance that chemically adsorbs NO gas, and has a structure in which the adsorbent chamber 4 is filled. The pipe 6 is provided with an electromagnetic on-off valve 8. Therefore, if the adsorbent chamber 4 is a cassette type, the electromagnetic opening / closing valve 8
Can be closed and replaced easily. Also,
A pressure sensing switch 9 is provided in the gas storage chamber 2 and senses the pressure of the gas sent from the gas purger 1 to output a switch ON signal when the pressure exceeds a predetermined level to turn on the electromagnetic opening / closing valve 8. It is supposed to open.

Next, the operation of this embodiment will be described. The non-condensable gas generated in the absorption refrigerator is the gas purger 1
It is stored in the gas storage chamber 2 through the pipe 7 via the. When the pressure of the gas stored in the gas storage chamber 2 becomes equal to or higher than a predetermined pressure, the pressure sensing switch 9 outputs a switch ON signal to open the electromagnetic on-off valve 8. As a result, gas such as water vapor and NO gas stored in the gas storage chamber 2 is chemically adsorbed by the adsorbent 5 in the adsorbent chamber 4 through the pipe 6. Since the NO gas once adsorbed by the chemical adsorption does not easily desorb, the NO gas in the gas storage chamber 2 is gradually adsorbed and removed, whereby the degree of vacuum in the absorption refrigerator is maintained at a high vacuum. Further, when the pressure of the gas stored in the gas storage chamber 2 becomes lower than a predetermined pressure, the pressure sensing switch 9
Sends a signal to turn off the switch, and closes the electromagnetic on-off valve 8 to prevent gas from going to the adsorbent chamber 4. As described above, the gas storage chamber 2 and the adsorbent chamber 4 are connected only when necessary, and the adsorbent 5 is brought into contact with and adsorbed by a gas such as water vapor or NO gas. NO gas adsorption performance can be prevented from lowering.

In this embodiment, the pressure sensing switch 9 is provided in the gas storage chamber 2 to control the opening / closing of the electromagnetic opening / closing valve 8 by the pressure in the gas storage chamber 2. However, the pressure sensing switch 9 should be provided. Instead, the opening / closing of the electromagnetic opening / closing valve 8 may be controlled by obtaining signals from the time of operation and the time of stopping of the absorption refrigerator. In this way, when the absorption refrigerator is stopped, the adsorbent 5 does not come into contact with a gas such as water vapor or NO gas, so that a decrease in the NO gas adsorption performance due to the adsorption of water vapor by the adsorbent 5 can be prevented.

In the above description, the example in which the adsorbent 5 that chemically adsorbs NO gas and the electromagnetic opening / closing valve 8 are provided in the gas storage chamber 2 has been described, but an absorber (not shown) of an absorption refrigerator.
, Substantially the same operation and effect can be obtained. Of course, it may be provided in both the gas storage chamber 2 and the absorber.

Next, referring to FIGS. 3 and 4, before the container filled with the adsorbent is set in the apparatus, the water content in the adsorbent is removed in advance to improve the adsorption performance of the adsorbent. An example is shown. The same members as those in FIG. 1 are denoted by the same reference numerals. In FIG. 3, an adsorbent chamber 4 filled with an adsorbent 5 is installed in a thermostat 10, and the thermostat 10 is heated from about 100 ° C. to about 120 ° C.
The water vapor is released from the adsorbent 5 by depressurizing the interior of the adsorbent chamber 4 by a vacuum pump 12 through a pipe 11 from the entrance and exit of the adsorbent chamber 4. In FIG. 4, similarly, the adsorbent chamber 4 filled with the adsorbent 5 is installed in a thermostat 10, and the temperature of the thermostat 10 is reduced from 100 ° C. to 1 ° C.
Water is evaporated from the adsorbent 5 by heating to about 20 ° C., and an inert gas such as nitrogen (N ₂ ) gas or argon (Ar) gas is flowed from the bottom of the adsorbent chamber 4 through a pipe 13 to the adsorbent. Water vapor is released from the entrance and exit of the chamber 4 through the pipe 11. In this way, the adsorbent 5 is dehydrated before the adsorbent chamber 4 is set in the absorption refrigerator, so that the adsorption performance of the adsorbent 5 can be improved.

[0021]

As described above, according to the NO gas removing device in the absorption refrigerating machine of the present invention, it is generated during the operation in the absorption refrigerating machine containing the nitrate or the nitrite in the absorbing solution. Since the NO gas is always removed by the adsorbent, the inside of the absorption refrigerator can always be maintained in a high vacuum. Moreover, it can be performed without maintenance.

Further, since the NO gas adsorbent 5 is brought into contact with water vapor and NO gas in the absorption refrigerating machine only when necessary such as when the pressure in the absorption refrigerating machine becomes high.
Without deteriorating the NO gas adsorption performance of the adsorbent 5,
Now it can be used for a longer period of time than before.

Further, before the adsorbent chamber 4 is set in the absorption refrigerator, the previously dehydrated NO gas adsorbent 5 also adsorbs water vapor. Since the partial pressure of water vapor is very high in the absorption refrigerator, the adsorption speed is high. Therefore, a vapor flow occurs from the absorption refrigerator to the adsorbent chamber 4, which serves as a carrier to carry the NO gas.
As shown in, the NO gas adsorption rate increases. By improving the adsorption performance in this manner, the same NO gas adsorption effect as that of the related art can be expected even if the contact area and capacity are reduced.

[Brief description of the drawings]

FIG. 1 is a diagram showing an embodiment of a NO gas removing device in an absorption refrigerator according to the present invention.

FIG. 2 is a diagram showing another embodiment of the NO gas removing device in the absorption refrigerator according to the present invention.

FIG. 3 is a view showing one embodiment in a case where an adsorbent 5 is subjected to a dehydration treatment in advance.

FIG. 4 is a view showing another embodiment in which the adsorbent 5 is subjected to a dehydration treatment in advance.

FIG. 5 is a graph showing the effect when the adsorbent 5 is subjected to a dehydration treatment in advance.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Gas purger 2 Gas storage room 3 Valve 4 Adsorbent chamber 5 Adsorbent 6 Pipe 7 Pipe 8 Electromagnetic on-off valve 9 Pressure sensing switch 10 Constant temperature bath 11 Pipe 12 Vacuum pump 13 Pipe

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[Procedure amendment]

[Submission date] February 14, 1996

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

Title: Method for removing NO gas in absorption refrigerator

[Claims]

1. An adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigerator containing a nitrate or a nitrite in an absorption solution, and the N in the absorption refrigerator is
In the method for removing O gas, prior to setting a container filled with the adsorbent, water adsorbed and retained by the adsorbent is removed from the adsorbent. NO gas removal method .

2. An adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or an absorber of an absorption refrigerator containing a nitrate or nitrite in an absorption solution, and the N in the absorption refrigerator is
In the method of removing O gas, before setting the container filled with the adsorbent, the interior of the container is depressurized with a vacuum pump from the inlet / outlet pipe of the container while heating the absorbent filled container,
A method for removing NO gas in an absorption refrigerator, wherein water vapor in an adsorbent is removed in advance.

3. An adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or an absorber of an absorption refrigerating machine containing nitrate or nitrite in an absorbing solution to provide N in the absorption refrigerating machine.
In the method of removing the O gas, before setting the container filled with the adsorbent, the water vapor in the adsorbent is removed in advance by passing the inert gas into the container while heating the container filled with the adsorbent. A method for removing NO gas in an absorption refrigerator.

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention removes NO gas in an absorption refrigerator containing nitrate or nitrite in an absorption solution.
In particular, the present invention relates to a method for removing NO gas in an absorption refrigerator in which the performance of an NO gas adsorbent is improved.

[0002]

2. Description of the Related Art When an absorption solution of an absorption refrigerator contains nitrate or nitrite, NO (nitrogen monoxide) gas, which is a noncondensable gas, is generated by corrosion or the like in the absorption refrigerator. This NO gas must be removed to reduce the degree of vacuum in the apparatus. Conventionally, the removal of the NO gas is generally performed by maintenance. With respect to hydrogen gas as a non-condensable gas, there is a method of discharging the hydrogen gas outside the absorption refrigerator using a palladium cell, but this method cannot be applied to NO gas. Except for the hydrogen gas, it can be discharged by an ejector method using cold / hot water, cooling water or the like.

[0003]

If the NO gas is removed by bleeding maintenance every time the degree of vacuum in the absorption refrigerator decreases, the use efficiency is low and the use cost is increased. On the other hand, in the ejector system using cold and hot water, in the case of NO gas, when it is exhausted, it is oxidized in the air to become NO ₂ gas, and since this NO ₂ gas dissolves in the cold and hot water, its pH decreases. As a result, there is a problem that the pipes and the like are corroded.

Accordingly, an object of the present invention is to provide an NO gas removing apparatus in an absorption refrigerator which can maintain a high vacuum inside the absorption refrigerator without maintenance and is less likely to corrode pipes and the like. . Further objects of the present invention
Removes water from the adsorbent in advance to improve the adsorption performance of the adsorbent.
An object of the present invention is to provide a method for removing NO gas in an absorption refrigerator, which is improved .

[0005]

To achieve the above object, the present invention provides a method for removing NO gas in an absorption refrigerator according to the present invention.
If so, the configuration was as follows. That is, absorption
Gas storage for absorption refrigerators containing nitrate or nitrite in the liquid
NO gas is chemically adsorbed to the storage room and / or the absorber.
Method of removing NO gas in absorption refrigerator by providing adhesive
Before setting the container filled with this adsorbent
In addition, the moisture retained by the adsorbent is removed from this adsorbent.
It is characterized by leaving .

[0006] In addition, NO gas is stored in the gas storage chamber and / or absorber of an absorption refrigerator containing nitrate or nitrite in the absorption solution.
Inside an absorption refrigerator with an adsorbent that chemically adsorbs gas
In the method for removing NO gas, before setting the container filled with the adsorbent, the inside of the container is depressurized by a vacuum pump from the inlet / outlet pipe of the container while heating the container filled with the adsorbent, and the adsorbent is previously adsorbed. this was so as to remove the water vapor in the dosage
And features .

[0007] Furthermore, the absorption solution nitrates or absorption refrigerator of the gas storage chamber and / or absorber in the NO gas chemically absorption cold provided an adsorbent for adsorbing containing nitrite in
In the method for removing NO gas in a freezer, before setting the container filled with the adsorbent, the inert gas is passed through the container while heating the container filled with the adsorbent, so that the adsorbent is preliminarily contained in the adsorbent. Characterized in that water vapor is removed.

According to the present invention, the absorption refrigerator including nitrate or nitrite in the absorption solution generates NO gas in the operation of the absorption refrigerator. The NO gas is supplied to the gas storage chamber and / or the absorption chamber. It is chemically adsorbed and removed by the NO gas adsorbent in the vessel. Therefore, the high vacuum in the machine is maintained. Moreover, there is no maintenance.

[0009] Then, N is contained in the gas storage chamber and / or the absorber of the absorption refrigerator containing the nitrate or the nitrite in the absorbing solution.
Absorption refrigerator with an adsorbent that chemically adsorbs O gas
In the method of removing the NO gas in the adsorbent, before setting the container filled with the adsorbent, the water adsorbed and held by the adsorbent is removed from the adsorbent. Before setting the filled container, the interior of the container is depressurized with a vacuum pump from the inlet / outlet pipe of the container while heating the absorbent filled container, so that the water vapor in the adsorbent is removed in advance, and further, Prior to setting the container filled with the adsorbent, the inert gas was passed through the container while heating the container filled with the adsorbent, so that the water vapor in the adsorbent was removed in advance. The adsorption performance of the adsorbent can be improved.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the absorption to which the present invention is applied
An example of the type refrigerator will be described with reference to the drawings. In FIG. 1, reference numeral 2 denotes a gas storage chamber of an absorption refrigerator, and NO gas, which is an incondensable gas generated from nitrate contained in an absorption solution, is finally sent and stored here. . An adsorbent 5 for chemically adsorbing NO gas is provided in the gas storage chamber 2. In the present embodiment, the adsorbent 5 is made of activated alumina impregnated with potassium permanganate, which is a substance that chemically adsorbs NO gas, and is filled in the adsorbent chamber 4 which is an absorbent filling container. It is a structure. The adsorbent chamber 4 communicates with the gas storage chamber 2 via a pipe 6. The pipe 6 is provided with the valve 3. Therefore, if the adsorbent chamber 4 is of a cassette type, the valve 3 can be closed and replaced easily. Reference numeral 1 indicates a gas purger. The gas purger 1 is connected to the gas storage chamber 2 by a pipe 7 and the NO.
Non-condensable gas such as gas is sent and stored.

Next, the operation of this device will be described. The non-condensable gas generated in the absorption refrigerator is sent to the gas storage chamber 2. The NO gas stored here is chemically adsorbed on the adsorbent 5 in the adsorbent chamber 4 through the pipe 6. Since the NO gas once adsorbed by the chemical adsorption does not desorb, the NO gas in the gas storage chamber 2 is gradually adsorbed and removed, whereby the degree of vacuum in the absorption refrigerator is maintained at a high vacuum. In addition, no bleeding maintenance is required. When the amount of adsorbent is saturated, the NO gas can be constantly removed by replacing the adsorbent with a new adsorbent.

In FIG. 2, the gas storage chamber 2 of the absorption refrigerator and the absorbent-filled container 4 are always connected to each other so that water vapor and N
This is an example in which the O gas and the adsorbent do not come into contact except when necessary. The same members as those in FIG. 1 are denoted by the same reference numerals. NO gas, which is a non-condensable gas generated from nitrate contained in the absorption solution, is finally sent to the gas storage chamber 2 through the pipe 7 through the gas purger 1 provided in the absorption refrigerator. At this time, water vapor is also introduced from the gas purger 1 at this time. The gas storage chamber 2 is connected through a pipe 6 to an adsorbent chamber 4 which is an absorbent filling container, and an adsorbent 5 for chemically adsorbing NO gas is provided in the adsorbent chamber 4. ing. In this example , the adsorbent 5 is made of activated alumina to which potassium permanganate, which is a substance that chemically adsorbs NO gas, is attached, and the adsorbent 5 is filled in the adsorbent chamber 4. The pipe 6 is provided with an electromagnetic on-off valve 8. Therefore, if the adsorbent chamber 4 is of a cassette type, the electromagnetic on-off valve 8 can be closed and replaced easily. The gas storage chamber 2 is provided with a pressure sensing switch 9 for sensing the pressure of the gas sent from the gas purger 1 and outputting a switch ON signal when the pressure exceeds a predetermined level. 8 is opened.

Next, the operation of this example will be described. The non-condensable gas generated in the absorption refrigerator is stored in the gas storage chamber 2 through the pipe 7 through the gas purger 1. When the pressure of the gas stored in the gas storage chamber 2 becomes equal to or higher than a predetermined pressure, the pressure sensing switch 9 outputs a switch ON signal to open the electromagnetic on-off valve 8. As a result, the gas storage room 2
Gases such as water vapor and NO gas stored in the adsorbent 5 in the adsorbent chamber 4 are chemically adsorbed through the pipe 6. Since the NO gas once adsorbed by the chemical adsorption does not easily desorb, the NO gas in the gas storage chamber 2 is gradually adsorbed and removed, whereby the degree of vacuum in the absorption refrigerator is maintained at a high vacuum. Further, when the pressure of the gas stored in the gas storage chamber 2 becomes lower than a predetermined pressure, the pressure sensing switch 9
Sends a signal to turn off the switch, and closes the electromagnetic on-off valve 8 to prevent gas from going to the adsorbent chamber 4. As described above, the gas storage chamber 2 and the adsorbent chamber 4 are connected only when necessary, and the adsorbent 5 is brought into contact with and adsorbed by a gas such as water vapor or NO gas. NO gas adsorption performance can be prevented from lowering.

In this example , the pressure sensing switch 9 is provided in the gas storage chamber 2 to control the opening / closing of the electromagnetic opening / closing valve 8 by the pressure in the gas storage chamber 2.
May be provided to control the opening and closing of the electromagnetic on-off valve 8 by obtaining a signal from the time of operation and the time of stoppage of the absorption refrigerator without providing the above. In this way, when the absorption refrigerator is stopped, the adsorbent 5 does not come into contact with a gas such as water vapor or NO gas, so that a decrease in the NO gas adsorption performance due to the adsorption of water vapor by the adsorbent 5 can be prevented.

In the above description, an example is shown in which the adsorbent 5 for chemically adsorbing NO gas and the electromagnetic on-off valve 8 are provided in the gas storage chamber 2, but an absorber (not shown) of an absorption refrigerator.
, Substantially the same operation and effect can be obtained. Of course, it may be provided in both the gas storage chamber 2 and the absorber.

Next, in FIGS. 3 and 4, before the container filled with the adsorbent is set in the apparatus, water in the adsorbent is removed in advance to improve the adsorbent adsorption performance. An example will be described. The same members as those in FIG. 1 are denoted by the same reference numerals. In FIG. 3, an adsorbent chamber 4 filled with an adsorbent 5 is installed in a thermostat 10, and the thermostat 10 is heated from about 100 ° C. to about 120 ° C.
The water vapor is released from the adsorbent 5 by depressurizing the interior of the adsorbent chamber 4 by a vacuum pump 12 through a pipe 11 from the entrance and exit of the adsorbent chamber 4. In FIG. 4, similarly, the adsorbent chamber 4 filled with the adsorbent 5 is installed in a thermostat 10, and the temperature of the thermostat 10 is reduced from 100 ° C. to 1 ° C.
Water is evaporated from the adsorbent 5 by heating to about 20 ° C., and an inert gas such as nitrogen (N ₂ ) gas or argon (Ar) gas is flowed from the bottom of the adsorbent chamber 4 through a pipe 13 to the adsorbent. Water vapor is released from the entrance and exit of the chamber 4 through the pipe 11. In this way, the adsorbent 5 is dehydrated before the adsorbent chamber 4 is set in the absorption refrigerator, so that the adsorption performance of the adsorbent 5 can be improved.

[0017]

As described above, according to the method for removing NO gas in the absorption refrigerator of the present invention, in the absorption refrigerator containing nitrate or nitrite in the absorption solution, the gas is generated during operation. Since the NO gas is always removed by the adsorbent, the inside of the absorption refrigerator can always be maintained at a high vacuum. Moreover, it can be performed without maintenance.

The NO gas adsorbent 5 which has been dehydrated before setting the adsorbent chamber 4 in the absorption refrigerator also adsorbs water vapor. Since the partial pressure of water vapor is very high in the absorption refrigerator, the adsorption speed is high. As a result, a vapor flow is generated from the absorption refrigerator to the adsorbent chamber 4 and acts as a carrier to carry the NO gas, so that the NO gas adsorption speed increases as shown in FIG. By improving the adsorption performance in this manner, the same NO gas adsorption effect as that of the related art can be expected even if the contact area and capacity are reduced.

[Brief description of the drawings]

FIG. 1 shows NO gas in an absorption refrigerator to which the present invention is applied .
It is a figure showing an example of a removal device .

FIG. 2 shows NO gas in an absorption refrigerator to which the present invention is applied .
It is a figure showing another example of a removal device .

FIG. 3 is a view showing one embodiment in a case where an adsorbent 5 is subjected to a dehydration treatment in advance.

FIG. 4 is a view showing another embodiment in which the adsorbent 5 is subjected to a dehydration treatment in advance.

FIG. 5 is a graph showing the effect when the adsorbent 5 is subjected to a dehydration treatment in advance.

[Explanation of symbols] 1 gas purger 2 gas storage chamber 3 valve 4 adsorbent chamber 5 adsorbent 6 pipe 7 pipe 8 electromagnetic on-off valve 9 pressure sensing switch 10 constant temperature bath 11 pipe 12 vacuum pump 13 pipe

Claims (6)

[Claims] 1. In an absorption refrigerating machine NO gas removing device containing nitrate or nitrite in an absorbing solution, an adsorbent for chemically adsorbing NO gas is used in a gas storage chamber and / or an absorber of the absorption refrigerating machine. An NO gas removing device in an absorption refrigerating machine, characterized in that a container accommodating is provided. 2. N in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigerating machine containing a nitrate or a nitrite in an absorbing solution.
In the O gas removal apparatus, an electromagnetic opening / closing valve is provided between the container filled with the adsorbent and the gas storage chamber and / or absorber, and a pressure sensing switch is provided in the gas storage chamber and / or absorber. When the pressure sensing switch has a pressure equal to or higher than a predetermined pressure, the electromagnetic opening / closing valve is opened to allow gas to flow between the gas storage chamber and / or the absorber and the absorbent filling container. NO gas removal device in absorption refrigerator. 3. N in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigerating machine containing nitrate or nitrite in an absorbing solution.
In the O gas removal apparatus, an electromagnetic on-off valve is provided between the container filled with the adsorbent and the gas storage chamber and / or the absorber, and the gas storage chamber and / or the absorption chamber is provided when the absorption refrigerator is not operated. A NO gas removing device in an absorption refrigerator, wherein gas is prevented from flowing from the container side to the absorbent-filled container. 4. N in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigeration machine containing nitrate or nitrite in an absorption solution.
In the O gas removal device, before setting the container filled with the adsorbent, the water adsorbed and held by the adsorbent is removed from the adsorbent, and the NO in the absorption refrigerator is characterized. Gas removal device. 5. N in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigerating machine containing nitrate or nitrite in an absorbing solution.
In the O gas removal device, before the container filled with the adsorbent is heated, the inside of the container is decompressed with a vacuum pump from the inlet / outlet pipe of the container while heating the container filled with the adsorbent, thereby preliminarily reducing the vapor An NO gas removing device in an absorption refrigerating machine, characterized in that 6. N in an absorption refrigerating machine in which an adsorbent for chemically adsorbing NO gas is provided in a gas storage chamber and / or absorber of an absorption refrigerating machine containing nitrate or nitrite in an absorbing solution.
In the O gas removal device, before the container filled with the adsorbent is heated, the inert gas is passed through the container while heating the container filled with the adsorbent to remove the water vapor in the adsorbent in advance. The NO gas removal device in the absorption refrigerator, which is characterized in that