KR200459674Y1 - A purifying ventilator of air being contaminated by tritiated water vapor - Google Patents

Abstract

The present invention relates to a purifying respirator of tritium-contaminated air for purifying air contaminated with tritium water, and conventionally, the conventional purifying respirator for tritium-water contaminated air has a complicated structure, and therefore, its size Solving the problem that there was a limit to shrink, according to the present invention, it has a simple configuration without the need to separately provide a humidifier plate or a layer filled with a humidity regulator, such as a conventional purifier for tritium water contaminated air, As a result, a purifier of the tritium-contaminated air having a new structure, which can be further reduced in size compared to the conventional tritium-contaminated air purifier, is provided.

Description

A purifying ventilator of air being contaminated by tritiated water vapor}

The present invention relates to a purifying respirator for purifying contaminated air, and more particularly, to a purifying respirator of tritium-contaminated air for purifying air contaminated with tritium water.

In addition, this invention includes all the contents described in patent application No. 2008-114218 filed with the Korean patent office by the applicant of this invention, and all the content contained here by reference.

Conventionally, in the respirator for purifying polluted air so that it can be breathed, tritium water pollution that purifies the air contaminated with tritium water, for example, simply as a gas mask used by the military or the police. Various types and uses of purifiers are used, up to those used in special cases such as purifiers of air.

Here, in general, representative isotopes of hydrogen (H) include deuterium (Duterium, Deuterium) having an atomic weight of 2 and usually represented by the element symbol D, and triple atoms having an atomic weight of 3 and usually represented by the element symbol T. There are hydrogen (tritium) and tritium is water, in which one or both of the two hydrogens constituting the water molecule (H ₂ O) are substituted with tritium (HTO, T ₂ O, DTO, etc.). ).

In addition, since tritium, unlike deuterium, is a radioactive isotope that emits beta rays, tritiated water, which contains it, is also a radioactive material that emits radiation. In pressurized deuterium reactors using heavy water, tritiated water is inevitably generated.

In addition, the Hanaro facility, which is a research reactor in Korea, also uses heavy water as a reactor reflector, and tritium water is generated. When such tritium water leaks into the air, it is contacted with air and evaporated to generate general water in the air H ₂ O) Easily mixed with steam, but humans breathing air in this state is very harmful to the human body. Therefore, air contaminated with tritium water should be breathed after removing or purifying tritium water by appropriate means. .

As described above, as a technique for purifying and breathing air contaminated with tritium water, there is typically a method of removing tritium water in air using ice.

That is, the tritium-contaminated air respirator according to the prior art utilizes the principle of removing the tritium water in the air by using the ice filled in most of the filtration tank, the purification method of tritium water using such ice, It is known to be easy to use and has high removal efficiency for tritium water in the air.

However, in the conventional removal method as described above, the removal principle has not yet been clearly identified. Only the air contaminated with tritium water passes through the ice layer, and condensation of tritium water due to the dew point decrease of the air, It is estimated that tritium water is removed only by two actions of isotope exchange on the ice surface.

In addition, the conventional removal method as described above, there are also disadvantages in handling as the use period is prolonged, for example, the limit of purification ability, that is, the use time due to the inability to replace and replace the ice There was a problem that there was.

In order to solve this drawback, the above-mentioned prior arts have tried to prolong the use time by making each ice melt as much as possible, but the present location does not reach a sufficient level.

In addition, the above-described prior art, because the concentration of tritium water in the ice melted water is high, there is also a problem that requires special management by classifying it as radioactive waste.

As a method different from the above-described contents of the prior art, there is a method of purifying air containing tritium water using silica gel or activated carbon containing 25 to 40% by weight of water.

In this method, tritium in the air is removed with high efficiency by isotope exchange with water contained in silica gel or activated carbon, but triplet by the isotope exchange principle using such hydrous silica gel, hydrous activated carbon, hydrous vermiculite and the like. Hydrogen water removal method has a problem that the efficiency is greatly affected by the water content of the medium and the flow rate of air passing through it, it is difficult to predict its life, and also a relatively large amount of radioactive waste after use, can be reused There was also a disadvantage that it was not easy.

The most widely used method of purifying air in tritium-water-contaminated systems in pressurized deuterium reactors and research facilities that generate a lot of tritium water is the alumino silicate-based zeolite-based molecular sieve. ), A method of removing tritium water in the air with high efficiency by using a water absorbent such as silica gel, alumina or anhydrous calcium sulfate.

This method is useful for removing tritium water from the air present in the system or apparatus, but the use of a respirator for human breathing is a possibility of respiration of dust generated from the adsorbent, and the air passing through the adsorbent Aluminosilicate-based zeolite-based molecular sieves, silica gels, aluminas or sulfuric anhydrides, which have not been used in respirators until recently due to inadequate low humidity, have been used by the inventors of the present invention. Through the study of applying a moisture adsorbent containing calcium to a tritium water respirator, a method of purifying tritium water contaminated air composed of an adsorber, a dust filter and a humidity controller has been proposed.

The purifying respirator of tritium-contaminated air using the above method, as shown in Patent Application No. 2008-114218, uses aluminosilicate-based zeolite-based molecular sieve, silica gel, alumina or anhydrous calcium sulfate. At the same time, water and tritium water in the air contaminated with tritium water are removed using a moisture adsorbent, and then dust is removed from the air from which water and tritium water are removed using a dustproof filter. By supplying fresh moisture to the air to remove the minority and dust to maintain a proper humidity for breathing.

Specifically, the purifying respirator 10 for tritium-water contaminated air shown in the above-mentioned patent application No. 2008-114218, as shown in Figure 1, aluminosilicate-based zeolite-based molecular sieve, silica gel, alumina Or in the adsorption portion 100 and the first connection portion 150, which accommodates the moisture adsorbent 110 containing anhydrous calcium sulfate therein, and has an inlet 140 through which external tritium water contaminated air flows. The dust removal unit 200 connected to the adsorption unit 100 and accommodating therein a dust filter 210 for removing dust contained in the air introduced from the adsorption unit 100 through the first connection unit 150. And the second connection part 250 is connected to the dust removal part 200 and supplies moisture to the air introduced from the dust removal part 200 through the second connection part 250 and purifies and controls humidity. Exhaust to exhaust the completed air to the outside It comprises a humidity control unit 300 is provided with a 320.

Here, the adsorption unit 100 is a part for removing tritium water present in the air contaminated with tritium water, specifically, aluminosilicate-based zeolite-based molecular sieves (molecular sieve) and The same water adsorbent 110 is used to remove water and tritium water in the air contaminated with tritium water at the same time, and the used water adsorbent 110 is used again after removing water and tritium water by heating it. It is possible to.

Meanwhile, the pretreatment filter 120 and the post-treatment filter 130 may be provided before and after the water adsorbent 110 provided in the adsorption unit 100, respectively. The pretreatment filter 120 may include a relatively large amount of external air. Filter the dust of the size, the post-treatment filter 130 as a main function to extend the life of the dust filter 210 by reducing the load of the dust filter 210 of the dust removal unit 200 to filter the dust. The pretreatment filter 120 and the post-treatment filter 130 also play a role as a structure that defines a space in which the moisture absorbent 110 is accommodated.

The dust removal unit 200 is a portion for removing the trace dust present in the air through which the tritium water and the water are completely removed by passing through the adsorption unit 100, and the dust filter 210 is a nonwoven fabric. Alternatively, 99.5 to 99.97% of the dust in the air generated by the adsorption unit 100 is removed using a dustproof filter or a HEPA filter made of glass fiber, and the like. For example, 3M product number 2091 or 2097, which is a specialty industrial product certified by Korea Occupational Safety and Health Agency, may be used. As a hepa filter, for example, US commercial Bullard company PA3HE may be used.

The humidity control unit 300 is provided with a layer or a humidification plate (not shown) filled with a humidity control agent 310 containing moisture, and the dry air passing through the adsorption unit 100 and the dust removal unit 200 is While passing through the layer or humidification plate filled with the moisture control agent 310 containing moisture, it contains moisture suitable for breathing having a relative humidity of 40 to 60%, and the layer or humidification plate filled with the humidity control agent 310 is In addition, if there is tritium water or dust that has not been removed in the air passing through the adsorption unit 100 and the dust removal unit 200, it is also responsible for the final removal.

Here, as the humidity control agent 310, a pulp material containing a polyacrylic acid-based superabsorbent such as polyurethane foam (sponge) or K-SAM (registered trademark) of Kolon Co., Ltd. may be used. As an absorbent, fiber, paper, etc. may be sufficient.

The humidifying plate may be a device for generating fine water particles, such as an ultrasonic humidifier, or a device for causing natural evaporation by simply exposing a part of a conduit through which water flows. It can be applied in various ways.

As described above, purifying air contaminated with tritium water simply and efficiently by using a purifying respirator for tritium water contaminated air as described in Patent Application No. 2008-114218 filed by the applicant of the present invention. Although it can be changed to a suitable air, the applicant has found that there are the following problems.

That is, in the purifying respirator for tritium-water contaminated air as described in the above-mentioned patent application 2008-114218, the dry air from which tritium has been removed is dusted by a filter, and then the layer or humidifier plate filled with the humidity regulator is removed. It is characterized in that it is adjusted to the appropriate humidity for breathing as it passes, but the structure of the respirator is complicated by having to separately provide a layer or a humidifying plate filled with a humidity control agent, and its size is also reduced to a certain level or less. There was an impossible limit.

Therefore, in order to solve the above problems, there is no need to separately provide a humidifier plate or a humidifier-filled layer. It is desirable to provide, but the situation is not yet provided a purifier of tritium-contaminated air that satisfies all such requirements.

As described above, the object of the present invention is to solve the problem of limiting the size of the existing tritium water polluted air purifying respirator complex and its size reduction, the conventional tritium water polluted air purifier It is not necessary to provide a separate layer or humidification plate filled with a humidity control agent, such as a triple structure of the new structure that can further reduce the size compared to the conventional purifier for tritium water contaminated air It is to provide a purifier of a small number of polluted air.

In order to achieve the above object, according to the present invention, in the purifying respirator of tritium-contaminated air for purifying the air contaminated with tritium water to the air suitable for respiration, the air contaminated with tritium water A purifier to purify, a breathing hose connected to the purifier to breathe the purified air through the purifier, and a sponge installed in the breathing hose to supply water to the purified air through the purifier Purified respirator of tritium-water contaminated air is provided comprising a water sponge and a breathing mask connected to the breathing hose and worn on the user's face.

The purifier may include an inlet through which air contaminated with the tritium water is introduced, an adsorption unit for removing water and tritium water in the air contaminated with the tritium water introduced through the inlet, and the adsorption unit. A dust removal part provided with a first connection part through which air passing through the part passes, a dust filter for removing dust in the air passing through the first connection part, and air passing through the dust removal part connected to the breathing hose; It characterized in that it comprises a second connecting portion for discharging to the breathing hose.

In addition, the adsorption unit is characterized in that it comprises a moisture adsorbent such as alumino silicate-based zeolite-based molecular sieve (molecular sieve), silica gel, alumina or anhydrous calcium sulfate.

Here, the moisture adsorbent is formed in the form of granules or pellets having a size of 2 to 5 mm, it is also characterized in that it is reused after removing the water and tritium by heat treatment after use.

In addition, the moisture adsorbent is characterized in that it further comprises silica gel or anhydrous calcium sulfate containing cobalt chloride which changes color when the water is saturated, thereby making it possible to easily determine the life of the moisture adsorbent.

In addition, the adsorption unit, and further comprises a pre-treatment filter for filtering out the relatively large particles of dust contained in the outside air, and a post-treatment filter for filtering out fine dust, respectively, with the moisture absorbent therebetween, thereby, The dust filter is characterized in that configured to extend the life of the dust filter by reducing the load of the dust filter to filter dust.

In addition, the anti-vibration filter is characterized in that the dust-proof filter or HEPA (HEPA) filter made of a nonwoven fabric or glass fiber.

In addition, the water-containing sponge, characterized in that installed in the form of a tube attached to the inner wall of the breathing hose.

As described above, according to the present invention, since the air contaminated with tritium water can be changed to air suitable for respiration by purifying the water in a simple and highly efficient manner, it is necessary to engage in pressurized deuterium reactors or related facilities in which tritium water is generated. It is possible to provide a purifier of tritium-contaminated air which is very suitable for protecting the safety of the operator.

In addition, according to the present invention, the conventional structure of the purifying respirator for the tritium water polluted air is complicated, the problem that was limited in reducing the size, solve the problem, the humidity control like the conventional tritium water polluted air purifier There is no need to separately provide a layer or a humidifying plate filled with a simple structure, whereby a new structure of tritium-water contaminated air can be further reduced in size compared to a conventional purifier for tritium-contaminated air. Purifying respirators may be provided.

1 is a view schematically showing the overall configuration of a conventional purifier of tritium-contaminated air for tritium-contaminated air.
2 is a view schematically showing a specific configuration of a purifying respirator of tritium-water contaminated air according to the present invention.
3 is a view schematically showing a specific configuration of a purifier of the purifier of the tritium water contaminated air according to the present invention shown in FIG.
4 is a view schematically showing another configuration of the purifying respirator of tritium-water contaminated air according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the purifying respirator of tritium water contaminated air according to the present invention.

Here, the content described below is an embodiment for carrying out the present invention, the present invention is not limited only to the content of the embodiment described below.

In addition, in order to simplify description, in the following description, the part same as the content demonstrated about said patent application 2008-114218 is abbreviate | omitted the detailed description and illustration, and only the different point is described.

First, referring to FIG. 2, FIG. 2 is a view schematically showing the overall configuration of a purifying respirator of tritium-water contaminated air according to the present invention.

That is, as shown in Figure 2, purifying respirator 20 of tritium water contaminated air according to the present invention, purifier 21 for purifying air contaminated with tritium water, breathing hose for breathing the purified air (22), a water-containing sponge 23 installed in the breathing hose 22 to supply moisture to the purified air, and a breathing mask 24 actually worn on the user's face.

Here, the part of the purifier 21 for purifying air contaminated with tritium water is the purifier respirator 10 for tritium water contaminated air described in the above-mentioned patent application No. 2008-114218 and the basic configuration and operation principle, etc. The same, but the purifier respirator 20 of the tritium-water contaminated air of the present invention, instead of the humidity control unit 300 having a layer or a humidifying plate filled with a moisture control agent 310 containing water, purified air The difference is that the water-containing sponge 23 for supplying moisture to the breathing hose 22 is provided.

That is, the purifying respirator 20 of the tritium-water contaminated air according to the present invention may be constituted only by the adsorption unit and the dust removing unit without the humidity control unit, and the role of the humidity control unit is a function installed in the breathing hose 22. Since the sponge 23 can be automatically performed in the breathing process, the configuration of the purifier 21 can thus be made simpler, thereby contributing to miniaturization and light weight, thereby increasing portability.

More specifically, as shown in FIG. 3, first, when air contaminated with tritium water flows into the purifier 21 through the inlet 35, in the adsorption unit 31, the aluminosilicate-based zeolite-based molle Water and tritium water in the air contaminated with tritium water are simultaneously removed through a moisture adsorbent 32 such as molecular sieve, silica gel, alumina or anhydrous calcium sulfate.

Here, since tritium water in the air has the same chemical properties as general moisture, a water adsorbent 32 such as alumino silicate-based zeolite-based molecular sieve, silica gel, alumina or anhydrous calcium sulfate is used. In theory, more than 99.9% can be removed.

In addition, the size and shape of the moisture absorbent 32 may be preferably in the form of granules or pellets having a size of 2 to 5 mm, but the present invention is not limited thereto. When a small amount of the silica gel or anhydrous calcium sulfate contained is mixed with the moisture adsorbent, the lifetime of the adsorbent can be easily determined.

In addition, the moisture adsorbent used in this step may be reused after removing the water and tritium by heating.

As such, when tritium water is removed using a moisture adsorbent 32 such as alumino silicate-based zeolite-based molecular sieve, even water in the air having the same chemical properties as tritium water is removed together, so that a person breathes. Not suitable for

 In addition, if the flow rate of the air flowing into the moisture absorbent 32 is fast, a small amount of dust may be generated depending on the properties of the moisture absorbent 32 used or the manufacturing state, and particularly, in the case of a forced blower, Since the possibility is very high, it is preferable to go through the water adsorbent 32 to remove the trace dust present in the tritium water and air completely removed.

That is, dust generated from the moisture absorbent 32 is harmful to the human body in itself, but when dust adsorbed tritium water enters the human body through respiration, it is necessarily removed because it results in breathing concentrated tritium water. Should be.

To this end, a dust filter provided with a dustproof filter 38 using a dustproof filter (or HEPA filter) 38 made of a nonwoven fabric or glass fiber, that is, the first connection part 36 is installed. By passing through the reject 37, the dust in the air generated in the step is removed.

Here, as the dustproof filter made of non-woven fabric or glass fiber, etc., 3M product number 2091 or 2097, which is a special black pen product of the Korea Occupational Safety and Health Agency, may be used, and as the HEPA filter, US Bullard Co. It may be used, but is not limited thereto.

In addition, as a structure defining a space in which the moisture absorbent 32 is accommodated, a pretreatment filter 33 and a posttreatment filter 34 are provided before and after the moisture absorbent 32, respectively. Filter out relatively large dust contained in the dust filter, and filter out fine dust by the post-treatment filter 34 to reduce the load on which the dust filter 38 of the dust removing unit 37 filters dust. It can also be used to prolong its life.

In this way, the air in which tritium water and fine dust is purified in the purifier 21 is discharged to the breathing hose 22 through the second connection part 39.

Here, in the purifying respirator 10 described in the patent application No. 2008-114218, a layer or a humidification plate in which the tritium water, moisture, and dust are removed in the purifying respirator 10 is filled with a humidity control agent. While performing the step of adjusting to contain the water suitable for breathing while passing through, the purifier 21 according to the present invention is the tritium water and fine dust purified air through the second connection 39, the breathing hose ( 22), the action of converting the air containing moisture suitable for breathing is carried out through the water-containing sponge 23 installed in the breathing hose (22).

That is, instead of the layer or humidification plate filled with the humidity regulator, as shown in FIG. 2, the water-sponge 23 is provided in the breathing hose 22 to play the same role, thereby providing a structure of the purifier 21. Can be simplified.

In addition, in the conventional purifying respirator 10 shown in Patent Application No. 2008-114218, a polyacrylic acid-based superabsorbent such as polyurethane-based foam (sponge) or K-SAM (registered trademark) of Kolon Co., Ltd. which is commercially available. Using a pulp material encapsulated with a gas, and using a device or apparatus that generates fine water particles or spontaneously evaporates, such as an ultrasonic humidifier, the present invention can simply replace it with a sponge containing water, In addition to simplifying the structure of the purifier 21, it is also effective in cost reduction.

Therefore, through the above-described configuration, it is possible to configure the purifier 21 having the same performance as the conventional purifier respirator 10 with only a simple configuration, whereby the purifier 21 can be reduced in size, weight, portability and user convenience. It can also contribute to the increase of and the reduction of manufacturing cost.

As described above, the present invention has been described through the embodiments of the present invention as described above, but the present invention is not limited to the contents of the embodiments as described above.

That is, for example, in the above-described embodiment, it has been described that the water-containing sponge 23 is provided inside the breathing hose 22. However, the water-containing sponge 23 described above is shown in FIG. Likewise, by installing the water-containing sponge 41 in the form of a tube attached to the inner wall of the breathing hose 22, the flow of air in the breathing hose 22 more smoothly, so that the user can breathe more comfortably. have.

That is, as described above, the present invention is not limited only to the contents described in the embodiments according to the present invention as described above, and therefore, the present invention is intended by those skilled in the art to which the present invention belongs. Naturally, various modifications, changes, combinations and substitutions are possible depending on the design needs and various other factors.

10. Purified respirator for tritium-contaminated air 100. Adsorption unit
110. Water absorbent 120. Pretreatment filter
130. Post Treatment Filter 140. Inlet
150. First connection part 200. Dust removal part
210. Dustproof filter 250. Second connection part
300. Humidity controller 310. Humidity controller
320. Outlet 330. Backflow prevention plate
20. Purifiers for tritium-contaminated air 21. Purifiers
22. Breathing hose 23. Water sponge
24. Breathing mask 31. Adsorption part
32. Water Adsorbent 33. Pretreatment Filter
34. Post Treatment Filter 35. Inlet
36. First connection part 37. Dust removal part
38. Dustproof filter 39. Second connection part
41. Hydration sponge

Claims (8)

In the respirator of tritium-contaminated air,
A purifier for purifying air contaminated with tritium water,
A breathing hose connected to the purifier for breathing the purified air through the purifier;
A water-containing sponge installed in the breathing hose and comprising a sponge containing water for supplying moisture to the purified air through the purifier;
Purifying respirator of tritium-contaminated air, characterized in that configured to include a breathing mask connected to the breathing hose and worn on the user's face. The method of claim 1,
The purifier,
An inlet through which air contaminated with the tritium water is introduced;
An adsorption unit for removing water and tritium water in the air contaminated with the tritium water introduced through the inlet;
A first connection part through which air passing through the adsorption part passes;
A dust removal unit provided with a dust filter for removing dust in the air passing through the first connection unit;
Purifying respirator of tritium-water polluted air, characterized in that it comprises a second connection portion connected to the breathing hose and discharges the air passing through the dust removal portion to the breathing hose. The method of claim 2,
The adsorption unit, purifying and respiratory system of tritium-water contaminated air, characterized in that it comprises a moisture adsorbent containing alumino silicate-based zeolite-based molecular sieve (molecular sieve), silica gel, alumina or anhydrous calcium sulfate. The method of claim 3, wherein
The moisture adsorbent is formed in the form of granules or pellets having a size of 2 to 5 mm, purifying respirator of tritium-water contaminated air, characterized in that it is reused after removing water and tritium by heat treatment after use. The method of claim 4, wherein
The water adsorbent is a purifying respirator of tritium-water contaminated air, characterized in that it further comprises silica gel or anhydrous calcium sulfate containing cobalt chloride. The method of claim 3, wherein
The adsorption unit,
And a pretreatment filter for filtering dust contained in external air and a post-treatment filter for filtering fine dust, respectively, with the moisture adsorbent interposed therebetween. The method of claim 2,
The dust filter is a dust filter or HEPA filter made of non-woven fabric or glass fiber purifier respirator, characterized in that the air. The method of claim 1,
The water-repellent sponge, purifying and respiratory system of tritium-water contaminated air, characterized in that installed in the form of a tube attached to the inner wall of the breathing hose.

Images