JP2001347127A - Detoxifying system for gaseous ammonia - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a new detoxifying system which subjects the ammonia refrigerant leaking from a refrigerator unit of refrigerating and air conditioning equipment to neutralization and detoxifying treatment by carbon dioxide and water. SOLUTION: This detoxifying system 1 for gaseous ammonia consists in subjecting the gaseous ammonia leaking from the refrigerator unit 2 of the refrigerating and air conditioning equipment to harmless treatment when the ammonia is applied as the refrigerant of the equipment to the detoxification by introducing the gaseous ammonia to a hermetic space of a scrubber 3, etc. before releasing the gas into the atmospheric air and reacting the carbon dioxide and water to form the salt of ammonium carbonate and ammonium hydrogen carbonate.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detoxifying ammonia gas, and more particularly to a method of leaking from a refrigerator unit using ammonia as a refrigerant due to a sudden disaster or accident. Alternatively, the present invention relates to a detoxification system that effectively absorbs ammonia refrigerant that leaks due to long-term use and renders it harmless.

[0002]

BACKGROUND OF THE INVENTION In recent years, refrigerants applied to various types of refrigeration and air conditioning equipment have been shifted from specified CFCs to designated / substituted CFCs for the purpose of destruction of the ozone layer surrounding the earth and preventing global warming. At present, discharge of CFCs into the atmosphere is strongly regulated, and natural refrigerants such as ammonia have been reviewed. Naturally, ammonia has excellent properties as a refrigerant, so it has been used as a refrigerant in the past, but ammonia gas itself has a strong pungent odor, and it can be harmful if a large amount of human inhales it. Therefore, in recent years, it has not been used much as a refrigerant, but has been gradually reviewed for the above reasons.

[0003] In this type of refrigeration / air-conditioning equipment, if a refrigerant pipe is cracked due to, for example, a sudden disaster or accident, ammonia may leak, so that the leaked ammonia gas is harmless. An abatement device that can be released into the atmosphere after chemical conversion treatment is provided, and is legally required as an abatement regulation. Conventionally, in this abatement process, a method is used in which leaked ammonia is brought into gas-liquid contact with a shower ring or the like, dissolved and absorbed in water, purified to an appropriate allowable reference value, and then released into the atmosphere. I was taking it. However, such a method of dissolving ammonia in water has a problem that a large amount of water is required, and when the concentration of the leaked ammonia gas is higher than a certain value, the water in the shower ring alone cannot completely absorb the gas. However, it was not always an effective abatement method. In addition, since such an abatement treatment is required, the use of ammonia having excellent characteristics as a refrigerant has been further hesitated.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of such a background, and is directed to a novel abatement system for neutralizing a leaked ammonia with carbon dioxide gas and water to detoxify the ammonia. I tried to develop it.

[0005]

According to the first aspect of the present invention, when ammonia is applied as a refrigerant for a refrigeration / air-conditioning facility, the ammonia gas leaked from a refrigerator unit of the facility is removed to the atmosphere. During detoxification before being discharged into the chamber, the ammonia gas leaked from the refrigerator unit is guided to a closed space such as a scrubber or a cooling tower through a duct, where a salt is generated with carbon dioxide gas and water. It is characterized by being treated for abatement.

Further, in the ammonia gas elimination system according to the present invention, in addition to the requirements described in the above-mentioned claim 1, the water to be reacted with the ammonia gas may be water for cooling a condenser of the refrigerator unit. It is characterized by being performed.

According to the above invention, the ammonia gas leaking from the refrigerator unit is reacted with carbon dioxide gas and water,
Since a salt such as ammonium carbonate or ammonium hydrogen carbonate is generated, detoxification can be performed reliably and effectively. This also makes it easier to use ammonia as a refrigerant. Further, a relatively small amount of water is required for detoxifying the leaked ammonia gas, and the generated salt can be reused for fertilizer and the like.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An ammonia gas elimination system 1 according to the present invention will be described below based on the illustrated embodiment.
In the description, the embodiment in which the scrubber 3 is applied [Embodiment 1] and the embodiment in which the cooling tower 3A is applied [Embodiment 2] will be described as those which substantially remove the ammonia gas. Since the scrubber 3 and the cooling tower 3A guide and process the leaked ammonia gas as described above, the scrubber 3 and the cooling tower 3A are provided with a gas introduction part (duct 26), a discharge part 38, etc. Has become.

[Embodiment 1] An ammonia gas abatement system 1 of the present invention effectively removes ammonia gas leaking from, for example, a compressor of a refrigerator using ammonia as a refrigerant. As an example, as shown in FIG. 1, a refrigerator unit 2 and a scrubber 3
And a carbon dioxide gas cylinder 4. The refrigerator unit 2 includes the compressor 21 as a main member, and appropriately includes a condenser, an evaporator, an expansion valve, and the like. Incidentally, the ammonia refrigerant is compressed by the compressor 21 to be in a high-temperature and high-pressure gas state, and then cooled by air or water in a condenser to be in a liquid state. The pressure is appropriately reduced by the expansion valve, and the ammonia refrigerant is easily evaporated. After being brought into a gaseous state, it is sent to the evaporator, and after being cooled as desired, it is circulated and transferred to the compressor 21 again. In the present embodiment, since the purpose is mainly for refrigeration, the general term "refrigerator unit" is used, but the abatement system of the present invention is not necessarily limited to only refrigeration. And air conditioning such as cooling and heating.

[0010] The refrigerant applied to such a refrigerator unit 2 may leak in a relatively large amount due to a sudden disaster or accident or the like, and the ammonia gas itself used as the refrigerant may be strongly stimulated. Since there is an odor and it is harmful if a person inhales a large amount (if the amount is relatively small, the ammonia absorbed in the body is discharged as urea),
2 are hermetically sealed. In addition, when the refrigerator unit 2 is stored in an appropriately partitioned room such as a machine room, for example, such a machine room or the like is formed to be hermetically sealable, and can be used as the casing 22. In the casing 22, a leak detector 23 for detecting leakage of ammonia gas is provided, and an air supply port 24 and an exhaust port 25 for sending the leaked ammonia gas to the scrubber 3 are provided. Further, the exhaust port 25 is connected to the scrubber 3 by a duct 26.

The scrubber 3 is a closed portion for substantially detoxifying the ammonia gas introduced through the duct 26. The scrubber 3 contains an appropriate filler 31 therein, and the ammonia gas removes the filler 31. A carbon dioxide gas injection port 32 and a water spray port 33 are formed at positions before and after the passage. That is, the ammonia gas is
1 and before passing through the carbon dioxide gas cylinder 4, the mixture is mixed with the carbon dioxide gas supplied from the carbon dioxide gas cylinder 4, and the mixture is brought into contact with water supplied from the water sprinkling port 33 on the surface of the filler 31 to cause a neutralization reaction, Is generated. Water spout 33
A recovery tank 34 is formed at the bottom of the scrubber 3 for temporarily storing water supplied from the water, salt generated from a part of the water, and the like.

A circulation pump 35 is provided between the recovery tank 34 and the water spout 33 so that the liquid dropped into the recovery tank 34 can be repeatedly used as water for producing salt. ing. That is, the water for producing the salt is first supplied into the collection tank 34 from the water supply port, and then sent into the scrubber 3 from the watering port 33 by the circulation pump 35, and a part of the water is used for producing the salt. Thereafter, the circulation of falling into the collection tank 34 is repeated. Of course, the liquid that repeats this circulation,
The water is replaced with fresh water in a state where the neutralization reaction is almost in equilibrium. The gas purified through the filler 31 is discharged from the eliminator 36 for separating water droplets contained in the gas through the exhaust fan 37 to the atmosphere. Incidentally, this discharging portion is denoted by reference numeral 38.

Here, the chemical reaction that takes place while the ammonia gas passes through the filler 31 will be described. In this method, ammonia gas is neutralized by binding with carbon dioxide gas and water, and is fixed as a salt such as ammonium carbonate or ammonium hydrogen carbonate. A typical example of the reaction formula is shown below.

[0014]

## STR1 ## 2NH ₃ + CO ₂ + H ₂ O → (NH ₄ ) ₂ CO
₃ or

[0015]

## STR2 ## NH ₃ + CO ₂ + H ₂ O → NH ₄ .HCO ₃

As can be understood from the above formula, the amount of water required for salt formation is determined by the amount of leaked ammonia gas. Therefore, the water supplied from the sprinkling port 33 does not completely react in a single pass, but is repeatedly used until the neutralization reaction is substantially equilibrated even after being stored in the recovery tank 34. Is possible. Salts such as ammonium carbonate and ammonium hydrogen carbonate generated by the reaction are harmless and can be reused as fertilizers.

[Embodiment 2] In Embodiment 2, the cooling tower 3A substantially removes ammonia gas, and the detoxification process itself, which produces salt using carbon dioxide gas and water, is described in Embodiment 2. It almost follows 1. However, in the second embodiment, the water after cooling the condenser of the refrigerator unit 2 is piped so as to be guided to the sprinkling port 33 of the cooling tower 3A, and is cooled by passing through the cooling tower 3A. Are connected via a circulation pump 35 so as to be circulated for cooling the condenser of the refrigerator unit 2.

That is, the water required for salt formation is first supplied from the water supply port to the bottom of the cooling tower 3A, and then transferred to the refrigerator unit 2 by the circulating pump 35 to cool the condenser. While being partially used for salt generation, the solution as a whole is cooled as it passes through the tower, and again,
Sent to the refrigerator unit 2 by the circulation pump 35,
That is to repeat the cycle. Of course, the liquid used in this circulation is replaced with fresh water in a state where the neutralization reaction for producing salts is almost in equilibrium.

In the second embodiment, the supply of water is substantially constant because the water for producing the salt is obtained by circulating and using the cooled condenser of the refrigerator unit 2. It is expected that. Therefore, the exhaust fan 25 is connected to the exhaust port 25 so that the amount of ammonia gas sent from the casing 22 into the cooling tower 3A can be appropriately adjusted.
It is desirable to provide a damper 26 </ b> A in the duct 26 while providing A.

In the second embodiment, the eliminator 36 is not provided on the side for exhausting the treated ammonia gas, but this can be provided as appropriate. Further, in this embodiment, the processing steps for generating the salt are the same as those in the first embodiment, and thus the description of the generation is omitted. Furthermore, in both the first and second embodiments, the water for generating the salt is supplied below the filler 31 in the scrubber 3 or the cooling tower 3A. However, if the salt can be efficiently generated, for example, It may be supplied together with water from above the filler 31.

[0021]

According to the present invention, for example, when ammonia is applied as a refrigerant of a refrigerator, the ammonia gas leaking is reacted with carbon dioxide gas and water, whereby the detoxification treatment can be performed relatively easily and effectively. I can do it. In addition, this makes it easier to apply ammonia, which has conventionally been often avoided, as a refrigerant. Furthermore, a relatively small amount of water is required for detoxifying the leaked ammonia gas.
The generated salt can be effectively used as fertilizer and the like.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a first embodiment in which a scrubber is applied to an ammonia gas removal system of the present invention.

FIG. 2 is an explanatory view showing Embodiment 2 in which a cooling tower is applied to the ammonia gas removal system of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ammonia gas removal system 2 Refrigerator unit 3 Scrubber 3A Cooling tower 4 Carbon dioxide cylinder 21 Compressor 22 Casing 23 Leak detector 24 Air supply port 25 Exhaust port 25A Exhaust fan 26 Duct 26A Damper 31 Filler 32 Carbon dioxide gas injection port 33 Dispersion Water port 34 Recovery tank 35 Circulation pump 36 Eliminator 37 Exhaust fan 38 Discharge unit

Claims (2)

[Claims] When ammonia is applied as a refrigerant for a refrigeration / air-conditioning facility, the ammonia gas leaked from the refrigerator unit of the facility is detoxified before being released into the atmosphere. The ammonia gas is introduced into a closed space such as a scrubber or a cooling tower through a duct, where the ammonia gas generates a salt with carbon dioxide gas and water, and is subjected to an abatement treatment. 2. The water reacted with the ammonia gas,
The ammonia gas removal system according to claim 1, wherein water for cooling a condenser of the refrigerator unit is applied.