JP2003121365A - Method and apparatus for metering ammonium gas in the air - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and an apparatus for metering an ammonium gas in the air that can reduce the exposure period regarding 'discoloration test paper method' and 'linseed oil impregnation paper method'. SOLUTION: The method and apparatus 1 for metering an ammonium gas in the air comprise a metering container 2, and a pump 6 that is arranged at a suspension material and a container that are the arrangement members of an ammonium gas test paper 3 that is provided in the measuring container for forcibly circulating air to the ammonium gas test paper, and reduces the exposure period by increasing the amount of air supply and exhaust to the ammonium gas test paper to per unit time.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an airborne ammonia gas measuring method and a measuring apparatus therefor, and more particularly to an airborne ammonia gas measuring method for shortening the exposure time for contacting an ammonia gas test strip with air to improve the efficiency of measurement. Regarding the measuring device.

2. Description of the Related Art Ammonia gas in the air is regarded as a problem because it causes the following problems. That is,
Ammonia in the clean room where semiconductor circuits are manufactured interferes with the chemical reaction in the photoresist when forming semiconductor circuits, making it impossible to manufacture LSI patterns precisely and producing defective products. Is causing. For this reason, in state-of-the-art clean rooms,
At present, the amount of ammonia gas mixed is limited to 1 ppb or less. Also, regarding the problem that the painting discolors,
The phenomenon of discoloring paintings due to ammonia generated from concrete and building materials has long been regarded as a problem. Such a phenomenon is caused by the fact that ammonia in the air adheres to the painting surface and reacts with ammonia, which is a solvent used in oil painting, and ammonia, and the phenomenon changes. In order to suppress it, it is necessary to suppress the amount of ammonia gas in the air to 20 ppb or less. In particular, the offensive odor of ammonia gas is severe, and ammonia gas is said to be a typical component of offensive odor. Generally, an ordinary person feels an ammonia odor at 5000 ppb or more, and at 200000 ppb or more,
Since it is said to complain of poor physical condition, the ammonia concentration in the air is frequently evaluated as a measure for avoiding these problems. Of these, the offensive odor of ammonia gas is at a level that can be detected with a detector tube,
The phenomenon that inhibits the chemical reaction in the production of semiconductor circuits is at a level that can be detected by the Impinger method in which pure water's ammonia is collected and analyzed using a chemical analyzer. On the other hand, in the case of the problem of discoloration of a painting, the "discoloration test paper method" and "linseed oil impregnated paper method" are generally used, and the "discoloration test paper method" is similar to a pH test paper. After hanging for 24 hours in the atmosphere of the museum or museum to be measured, the color is visually compared with the reference color to evaluate the acidity and alkalinity of the air. The "linseed oil impregnated paper method" While impregnating linseed oil, which is used as a solvent in oil paintings, with filter paper, it is exposed to the museum to be measured for about 10 days, and then the yellow index is measured using a color difference meter. Indicates that there is no problem when the yellow index corresponding to 20 ppb or less is 30 or less. These measurement methods are generally collected by suspending a pH test paper having a size of 2.5 cm × 1.5 cm or a filter paper impregnated with linseed oil in the air as shown in FIG. Is. The "discoloration test paper method" requires a day and night exposure time, and the "linseed oil-impregnated paper method" also requires a long exposure period of 10 days. The conventional measurement method as described above requires a very long period of time, no matter how small the measurement of ammonia gas is, in the measurement at museums and museums in which it is necessary to immediately check the state of ammonia gas in the air. This is a problem, and it presents a problem that it is not possible to meet the urgent demand of the surrounding environment.

DISCLOSURE OF THE INVENTION The present invention is proposed in view of the above situation in order to shorten the measurement period, and relates to the "discoloration test paper method" and the "linseed oil-impregnated paper method", Provided are an airborne ammonia gas measuring method and a measuring apparatus therefor capable of shortening the exposure period.

A method for measuring airborne ammonia gas according to the present invention is basically a method for measuring airborne ammonia in air and then performing a comparative measurement, by holding an ammonia gas test strip in a container. It is characterized by increasing the air supply / exhaust volume for the ammonia gas test paper in the container per unit time.Specifically, the ammonia gas test paper is used as a test paper for measuring the pH and the reference value It is confirmed by comparison, and the ammonia gas test paper is used as a filter paper impregnated with linseed oil to measure and confirm the yellow index, and the air supply and exhaust volume is enhanced by circulation by a pump provided in the container. There is. This makes it possible to measure the ammonia gas in the air in a significantly shortened period. Further, the measuring device for air ammonia gas according to the present invention is a measuring device used in each of the above-mentioned air ammonia gas measuring methods, and basically, a measuring container, an arrangement member for an ammonia gas test strip provided in the measuring container, and It consists of a pump that is placed in a container to force air to flow through ammonia gas test strips.
Specifically, the measurement container is divided into upper and lower parts, an ammonia gas test strip arrangement member is provided between the divided measurement containers, and a pump for forcibly circulating air through the ammonia gas test strip is provided in one of the upper and lower divided measurement containers. Alternatively, a heating device is provided for the ammonia gas test paper, which enables measurement of ammonia gas in the air in a significantly shortened period.

BEST MODE FOR CARRYING OUT THE INVENTION An airborne ammonia gas measuring method and a measuring apparatus therefor according to the present invention are each airborne ammonia gas measuring method and a measuring apparatus for carrying out the method, and a measuring container and an ammonia gas test provided in the measuring container. It is basically composed of a paper arranging member and a pump which is installed in a container and forcedly flows air through the ammonia gas test paper. Hereinafter, each embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic diagram showing a basic embodiment of the present invention. An airborne ammonia gas measuring device 1 suspends an ammonia gas test paper 3 inside a cylindrical container 2. . As the ammonia gas test paper 3, it is possible to use a test paper for measuring pH or a filter paper impregnated with linseed oil used as a solvent for oil paintings. In the case of test paper for measuring pH, Although not shown, an observation device is separately arranged so that the acidity and alkalinity of the air can be confirmed and evaluated by comparing the color of the discolored test paper with the reference color. Similarly, in the case of ammonia gas test paper in which linseed oil is impregnated in the filter paper, by using a color difference meter that is separately arranged,
The yellow index can be measured to evaluate the state of ammonia gas in the air. As the yellow index, an ammonia gas amount of about 20 ppb or less will be displayed. There is. Further, the container 2 is equipped with an air supply hole 4 and an exhaust hole 5, and a pump 6 is arranged on the exhaust hole 5 side to make the container 2
The air is positively collected by sucking the air inside. As a result, the air circulated in the container is
The ammonia gas test paper 3 is forcibly blown, and the amount of air contacting the ammonia gas test paper 3 per unit time is increased. The increase in the amount of contact air substantially shortens the exposure period of the ammonia gas test strip 3 in air, and as a result, it is possible to achieve the measurement of ammonia gas in a short period of time. Figure 2
Is a schematic view showing another embodiment of the present invention,
The air ammonia gas measuring device 7 is an impinger 8
The ammonia gas test paper 3 is installed on the bottom 9 of the. The impinger 8 is composed of a container 10 having an open upper part and a sealing lid 12 for sealing the opening 11 of the upper part. The sealing lid 12 is provided with an air supply pipe 13 and an exhaust pipe 14 equipped with a pump 6. is there. The tip 15 of the air supply pipe 13 is formed in a shape close to the upper surface 16 of the ammonia gas test strip 3 in order to collide the upper surface of the ammonia gas test strip 3 installed on the bottom 9 with the outside air. As a result, the air that collides with the upper surface of the ammonia gas test strip 3 in the container enhances the amount of air contacting the ammonia gas test strip 3 per unit time in the same manner as in the above-described embodiment to measure the ammonia gas. The period can be contracted in the short term. FIG. 3 is a schematic diagram showing another embodiment of the present invention, FIG. 3 (a) is an exploded view of the measuring device, and FIG. 3 (b) is a perspective view of the assembled measuring device. The air ammonia gas measuring device 17 in the present embodiment is composed of filter holders 18 and 19 that are vertically divided into two parts, and an arrangement member 20 for the ammonia gas test paper 3. The filter holder 18 is provided with an air supply pipe 21, and the filter holder 19 is equipped with a pump 6 for the exhaust pipe 2.
2 is provided. The arrangement member 20 is the filter holder 1
It is configured in the same manner as 8 and 19, and is composed of a sealing member 24 such as an O-ring that holds the air from the air supply pipe 21 so as to flow to the ammonia gas test paper 23. In the present embodiment, the ammonia gas test paper 23 sandwiched between the placement members 20 is arranged between the filter holders 18 and 19, and the air collected by the pump 6 is fed from the air supply pipe 21 equipped in the filter holder 18 to the ammonia gas test paper 23. Test paper 2
3 and then discharged to the outside from an exhaust pipe 22 provided in the filter holder 19. FIG. 4 is a result diagram of an experiment showing measured values obtained by circulating indoor air in the measuring apparatus for air ammonia gas in the above embodiment. This experiment is carried out by the "linseed oil-impregnated paper method" with the flow rate of air being 2 liters / minute. Therefore, the ammonia gas test paper is an ammonia gas test paper in which linseed oil is impregnated in the filter paper, and the yellow index is measured by using a color difference meter. The yellow index is displayed on the vertical axis while setting the number of days elapsed. The experimental result of the conventional method in which the ammonia gas test paper is hung is shown by a straight line, and the progress is y = 16.4.
It is possible to display with 83 + 1.9512x, and
Is displayed with a chain line. Further, the experimental results of the method for measuring airborne ammonia gas and the measuring apparatus therefor according to the present invention, the progress indicated by a straight line is represented by y = 17.175 + 3.8701x, and is represented by a solid line ●. As is clear from the results of this experiment, in the yellow index in which the concentration of ammonia gas is a problem, for example, in the case where the yellow index is 35 or more, the conventional method requires 10 days or more. Without it, I could not confirm. However, in the airborne ammonia gas measuring method according to the present invention, the same state is half the number of days elapsed as compared with the conventional method.
It can be confirmed within a day. As is clear from the above experimental results, the air passing through the ammonia gas test strip 23 enhances the amount of contact air per unit time in the ammonia gas test strip 23 as in the above embodiment, It can shorten the measurement period of ammonia gas in a short period of time, and is extremely effective for measurement in museums and museums where it is necessary to confirm the state of ammonia gas in the air. Furthermore, it has been reported that discoloration of test paper for measuring pH and filter paper impregnated with linseed oil generally progresses more easily in the summer than in the winter. By emphasizing the degree of discoloration even when a predetermined amount of ammonia gas adheres to the ammonia gas test paper, the yellow index can be easily measured by a color difference meter. That is, in each of the above-described embodiments, by disposing a heating device that raises the temperature of the ammonia gas test strip in each measuring device, while being configured to promote discoloration of the ammonia gas test strip, at the same time, Further shortening the exposure period by providing a conversion table such as "Temperature-Discoloration scale of ammonia gas test paper" or "Yellow index of linseed oil-impregnated filter paper-Ammonia gas concentration calibration" that takes into account the degree of acceleration due to temperature Can be advanced. As described above, the airborne ammonia gas measuring method and the measuring apparatus according to the present invention enhance the amount of air contacted with the ammonia gas test strip per unit time, and additionally warm the ammonia gas test strip. As a result, the exposure time of the ammonia gas test paper is substantially shortened and the degree of discoloration is accelerated to improve the measurement efficiency of ammonia gas floating in the air. Although the present invention has been described in detail above based on the embodiments, the air ammonia gas measuring method and the measuring apparatus according to the present invention are not limited to the above embodiments, and ammonia gas test papers and It goes without saying that various changes can be made to the shape and material of the container, the type of pump, and the like by applying what is already known at the time of application, without departing from the spirit of the present invention.

According to the airborne ammonia gas measuring method of the present invention, an ammonia gas test strip is held in a container to increase the air supply / exhaust amount for the ammonia gas test strip in the container per unit time. Ammonia gas test paper is used as a test paper for measuring pH to confirm by comparison with a reference value, and ammonia gas test paper is used as a filter paper impregnated with linseed oil to measure and confirm the yellow index, and The feature is that the supply / exhaust volume is increased by the circulation by the pump provided in the container, so that the effect of enabling the measurement period of the ammonia gas in the air in a significantly shortened period is exhibited. The apparatus for measuring airborne ammonia gas according to the present invention comprises a measuring container, an arrangement member for the ammonia gas test strip provided in the measuring container, and a pump disposed in the container to force air to flow through the ammonia gas test strip. As a result, it is possible to measure ammonia gas in the air in a significantly shortened period, and the effect of further shortening is exhibited by equipping a heating instrument for ammonia gas test paper.

[Brief description of drawings]

FIG. 1 is a schematic diagram of an embodiment showing a device for measuring airborne ammonia gas according to the present invention.

FIG. 2 is a diagram of another embodiment showing an apparatus for measuring airborne ammonia gas according to the present invention.

FIG. 3 is a diagram of another embodiment showing a device for measuring airborne ammonia gas according to the present invention.

FIG. 4 is an experimental value diagram showing measurement results of airborne ammonia gas according to the present invention.

FIG. 5: Conventional measurement method for airborne ammonia gas

[Explanation of symbols]

1, 7, 17 Air ammonia gas measuring device, 2
Container, 3,23 Ammonia gas test paper, 4 Air supply hole, 5 Exhaust hole, 6 Pump, 8 Impinger, 9 Bottom part, 11 Opening part, 12 Sealing lid, 1
3, 21 Air supply pipe, 14, 22 Exhaust pipe, 15 Tip, 16 Top surface, 18, 19 Folder holder,
20 placement member, 24 sealing member,

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) G01N 31/22 121 G01N 31/22 121C F term (reference) 2G042 AA01 BB06 CA01 CB01 DA08 FA12 FA20 FB07 FC01 GA10 HA06 2G052 AA01 AB11 AC13 AD02 AD42 BA05 BA14 CA02 CA04 CA12 CA29 DA12 DA22 EA03 EA14 EA15 EA17 EB11 ED06 ED11 FA05 GA28 HB07 JA07 2G054 AA01 AB07 BA02 BB02 BB06 BB13 CA05 CD03 CD04 CE02 EA06 GE06 GE06 GE06 GE06 GE06 GE06 GE06 GE06 GE06 GE06

Claims (7)

[Claims] 1. A measurement method for performing a comparative measurement after capturing airborne ammonia in air, wherein an ammonia gas test strip is held in a container, and the supply / exhaust amount of air to the ammonia gas test strip in the container is set. A method for measuring airborne ammonia gas, which is characterized by increasing per unit time. 2. The airborne ammonia gas measuring method according to claim 1, wherein the ammonia gas test paper is a test paper for measuring pH and is confirmed by comparison with a reference value. 3. The airborne ammonia gas measuring method according to claim 1, wherein the ammonia gas test paper is a filter paper impregnated with linseed oil, and the yellowness index is measured and confirmed. 4. The airborne ammonia gas measuring method according to claim 1, wherein the supply / exhaust amount of air is enhanced by circulation by a pump provided in the container. 5. A measuring device for use in the airborne ammonia gas measuring method according to claim 1, comprising: a measuring container, an arrangement member for ammonia gas test strips provided in the measuring container, and the container. An airborne ammonia gas measurement device that consists of a pump that is installed to force air to flow through the ammonia gas test strip. 6. The airborne ammonia gas measuring device according to claim 5, wherein the measuring container is divided into upper and lower parts, and an arrangement member for ammonia gas test paper is provided between the divided measuring containers, and either one of the upper and lower divided measuring containers is provided. The apparatus for measuring airborne ammonia gas according to claim 5, wherein a pump for forcibly circulating air through the ammonia gas test strip is provided in the above. 7. The apparatus for measuring air ammonia gas according to claim 5, wherein the heating device is provided for the ammonia gas test strip.