KR100523560B1 - A Pollutant Sampling Apparatus and Method for a Pollutant Measurement - Google Patents

Abstract

The present invention relates to an apparatus and method for collecting pollutants in order to measure the concentration of pollutants generated in the interior materials used in buildings, constant temperature and humidity for controlling to maintain the temperature and humidity of the air supplied to the inside Control chamber; At least one measuring chamber including a test body therein; First pumping means connected to the respective chambers between the constant temperature and humidity control chamber and the measurement chamber to pump the air inside the constant temperature and humidity in the constant temperature and humidity control chamber into the measurement chamber; Second pumping means for pumping air inside the measurement chamber to the outside; And sampling means disposed between the measurement chamber and the second pumping means to sample the contaminants contained in the air pumped out by the second pumping means.

According to the present invention, the test subject to measure the degree of pollutant emission is not affected by the change of ambient temperature and humidity, and the tester can set the desired temperature condition arbitrarily, so that the pollutant concentration can be accurately measured, and the constant temperature By using the humidity control chamber, temperature and humidity can be kept constant and controlled at low cost.

Description

A Pollutant Sampling Apparatus and Method for a Pollutant Measurement

The present invention relates to an apparatus and method for collecting pollutants, and more particularly, to accurately measure the concentration of pollutants, for example, volatile organic compounds (VOCs) generated from interior materials used in buildings, without the influence of ambient temperature and humidity. The present invention relates to an apparatus and a method for collecting pollutants.

In general, indoor air pollution caused by chemicals generated from building materials that use petrochemical materials used as interior materials in homes and offices as finishing materials is becoming more serious, and the deterioration of indoor air quality is irritating to inmates. It is causing the situation and discomfort. In particular, the pollutants generated from indoor interior materials are known to contain various types of carcinogenic substances, which is very serious.

In fact, many interior materials used in buildings use petrochemical products as finishing materials, which are the main cause of generation of indoor pollutants, especially volatile organic compounds (VOCs). . Most VOCs are characterized by a slow release from the building materials into indoor air for a long time. The study of the amount of VOCs emitted from building materials is important in understanding the effects of indoor air quality (IAQ) and pollutants. This research has been active in Europe since the early 1980s, and recently in North America. Common to these studies is the release rate, where a sample (construction material) is placed in a chamber of a given volume and clean air is passed through the chamber, then the concentration of contaminants in the chamber is measured.

However, although there are standards for the measurement of pollutants to be measured in the working environment and the air environment, internationally recognized standards are still insufficient for the measurement of VOCs emitted from building materials and causing indoor pollution. Therefore, when comparing various measurement cases, the method of collecting air in the chamber is different for each measurer, and the analysis method of the air concentration in the collected chamber is different, which makes it difficult to compare the measured results.

The pollutant concentration depends not only on the type of sample (building material) to be measured, but also on the temperature and humidity around the sample, so that the conditions under which air is collected in the chamber determine the pollutant concentration. It is an important issue.

1 is a schematic diagram of an example of a conventional pollutant collecting device. As shown in FIG. 1, an enclosed chamber 11 having a predetermined capacity and an experiment object 15, which is a target material for measuring the degree of generation of contaminants in the chamber 11, are provided. The lower part is provided with a coil 15 to maintain the air temperature in the chamber 11 at a set temperature value. That is, by controlling the current value flowing in the coil 15 to control the air temperature in the chamber 11 to a desired value. In addition, the chamber 11 is provided with an air inlet 12 and an air outlet 13 for injecting and discharging a predetermined amount of air into the respective chambers, and a steam inlet for supplying steam into the chamber 11. 14) is formed to maintain the humidity in the chamber 11 at a set value. Although not shown in the figure, there is provided an air supply device and an air discharge device for supplying and discharging air to the air inlet 12 and the air outlet 13, respectively, and also for supplying steam to the steam inlet 14. A supply device is provided.

The air supplied into the chamber 11 through the air inlet 12 passes through the inside of the chamber 11 and is discharged to the outside through the air outlet 13, and collects the discharged air. At this time, the concentration is measured because the collected air contained contaminants generated from the test body 15 as the building material.

However, in the case of the conventional pollutant collecting device, it is difficult to maintain the desired temperature and humidity in the chamber 11, and in particular, the result of measuring the concentration of the pollutant as an error of temperature and humidity in the chamber 11 occurs. There was a problem that a large difference occurs. In addition, there was a hassle to constantly adjust the humidity as the temperature changes. As described above, the concentration of the pollutant generated in the test body 15 varies greatly depending on the ambient temperature and humidity, in particular, and in the case of a conventional pollutant collecting device, the ambient temperature and humidity are kept constant. Because of the difficulty, it was impossible to accurately measure the concentration of the collected pollutants.

Meanwhile, regarding a pollutant collecting device for measuring pollutants, Korean Patent Application No. 195-68459 discloses a condensation hydrofluoric acid collecting method for measuring pollutants on a semiconductor wafer and a collecting device used therein. The collecting device is for measuring contaminants on a semiconductor wafer, and collects droplets of hydrofluoric acid by using a rotary collecting unit and a central collecting pin connected to an ultrasonic vibrator.

In addition, Korean Patent Application No. 1998-08014 discloses a method and apparatus for measuring pollutants in a semiconductor processing chamber. The measuring method and apparatus is for measuring the real-time concentration of gaseous contaminants present in the semiconductor processing chamber, wherein at least one processing gas flows into the processing chamber including a gas inlet and an outlet port, and the processing gas is a gas analyzer. For example, after exhausting through a microsensor, the concentration of the pollutant in the gas analyzer is measured.

However, the apparatus and method disclosed in the above-mentioned patent applications are for measuring contaminants contained in gas in a semiconductor process, and do not take into account the ambient temperature or humidity, and therefore occur in building materials affected by temperature and humidity. It is not possible to accurately measure the concentration of pollutants.

Therefore, in the art, in order to accurately measure pollutants (especially VOCs) generated in building materials, there is a growing need for an apparatus and method for collecting pollutants by maintaining a constant temperature and humidity at a set value. It is becoming.

In this way, the present invention, in order to accurately measure the contaminants, for example, VOCs generated in the building materials, so that the generation of contaminants from the building materials to be measured in the chamber is not affected by temperature and humidity Maintaining the constant temperature and humidity of the air primarily before injecting the pure air into the chamber, and secondly injecting the pure air into the chamber by maintaining the constant temperature of the air when injecting the pure air into the chamber And a contaminant collecting device and method for discharging and collecting contaminants contained in the discharged air.

The pollutant collecting device according to the present invention for achieving the above object, in the pollutant collecting device for measuring the concentration of the pollutant generated from the test object, so that the temperature and humidity of the air supplied to the inside is maintained at a set value Constant temperature and humidity control chamber for controlling; At least one measuring chamber including a test body therein; First pumping means connected to the respective chambers between the constant temperature and humidity control chamber and the measurement chamber to pump the air inside the constant temperature and humidity in the constant temperature and humidity control chamber into the measurement chamber; Second pumping means for pumping air inside the measurement chamber to the outside; And sampling means disposed between the measurement chamber and the second pumping means to sample the contaminants contained in the air pumped out by the second pumping means.

Here, preferably, the pollutant collecting device may further include a constant temperature control chamber including the measuring chamber therein to control the temperature of the air pumped into the measuring chamber to be maintained at the set value. Also, preferably, the pollutant collecting device may further include air supply means for supplying air into the constant temperature and humidity control chamber.

In addition, the pollutant collecting method according to the present invention for achieving the above object, in the pollutant collecting method for measuring the concentration of the pollutant generated from the test object, the temperature and humidity of the air contained in the first chamber Constant temperature and humidity control step of controlling to maintain each set value; An air transfer step of transferring air in the first chamber into at least one second chamber each including a test body therein; A constant temperature control step of controlling the temperature of the air transferred into the second chamber to be maintained at the set value; A pumping step of pumping the internal air from the second chamber to the outside; And a collecting step of collecting contaminants contained in the internal air pumped to the outside.

The above objects and features will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. However, the accompanying drawings are only illustrative of the preferred embodiments of the present invention, the present invention is not limited thereto. Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail the present invention.

2 is a schematic diagram of a pollutant collecting device according to an embodiment of the present invention. As shown in Figure 2, the pollutant collecting device according to the present invention, the air supply means for supplying air 1, the regulator for controlling the pressure and flow rate of the air supplied by the air supply means 1, respectively (2) and the flow meter (3), the constant temperature and humidity control chamber (4) of a constant volume for controlling to maintain the temperature and humidity of the air supplied into the interior by the air supply means (1) to a set value, the constant temperature and humidity control A first pumping means (5) for pumping air of the constant temperature and humidity inside the chamber (4) to the rear end, each of which includes a building interior material (7) which is a test object therein and is pumped by the first pumping means (5) At least one measuring chamber 6 of a predetermined volume passing therein, the second pumping means 10 and the second pumping means 10 for pumping the internal air of the respective measuring chambers 6 to the outside. Sampling of pollutants contained in the air discharged to the outside by pumping Sampling means 9 is included. In this case, preferably, the temperature of the air passing through the inside of the measuring chamber 6 by the pumping of the first pumping means 5 including the at least one measuring chamber 6 is maintained at the set value. It may further include a constant temperature control chamber (8) to control to. This is to prevent a change in the concentration of pollutants generated in the interior material (7) of the experiment subject to the minute temperature change of the air passing through the respective measuring chamber (6). Here, it should be noted that in the case of the constant temperature control chamber 8, a constant temperature and humidity control chamber may be used. However, primarily the temperature and humidity of the air in the constant temperature and humidity control chamber 4 is kept constant, if the temperature of the air is kept constant, there is almost no change in humidity, so as in the constant temperature control chamber ( 8) You can actually use only.

Each of the chambers 4, 6 and 8 is preferably a small chamber and its performance can be basically used according to the small chamber according to the reports of the American Standards Association (ASTM) and the European Joint Research (ECA). In addition, each of the chambers (4, 6, 8) are generally used in the field of researching the indoor environment, and those skilled in the art will be able to easily manufacture and repair, cleaning, heating and Processing may also be possible. More preferably, the constant temperature and humidity control chamber 4 and the constant temperature control chamber 8 may use a product (model name: TH-I) manufactured by JEIO Tech.co. In general, such chambers preferably include microprocessors that control various operations, including temperature and humidity control. Furthermore, the interior of each of the chambers 4, 6, 8 is made of stainless steel and heat-resistant glass to minimize the contamination and adsorption of contaminants in the collecting itself.

The measuring chamber 6 includes a test object, for example, a building material 7, which is a building material, to measure the degree of generation of contaminants. In the interior 7, contaminants, for example VOCs, are gradually released into the air. When the air of a predetermined temperature and humidity flows into the measurement chamber 6, the contaminants generated in the interior 7 may flow. Emitted into the air. Therefore, the inside of the measuring chamber 6 is filled with air containing contaminants generated from the interior material (7).

Hereinafter, the operation of the pollutant collecting device according to an embodiment of the present invention with reference to FIG.

The air supply means 1 includes a high pressure air therein, and supplies the air constantly into the constant temperature and humidity control chamber 4 by the regulator 2 and the flow meter 3. It is desirable to use pure air to reduce the degree of contamination in the external environment when collecting and measuring pollutants. The constant temperature and humidity control chamber 4 adjusts a predetermined amount of air supplied as described above to a set temperature and humidity, and when the air reaches the set temperature and humidity, maintains its value primarily (constant temperature and humidity). . As described above, those skilled in the art to which the present invention is applied will readily understand the control of the constant temperature and humidity of air in the constant temperature and humidity control chamber 4.

Air constant temperature and humidity by the constant temperature and humidity control chamber (4) is introduced into the one or more measuring chamber (6) by the first pumping means (5). At this time, preferably, the temperature control chamber 8 including the respective measurement chambers 6 completely controls the temperature of the air flowing into each of the measurement chambers 6 to maintain (constant temperature) the set value as it is. ) May be provided. This may be applied when the temperature is lowered while the air constant temperature and humidity by the constant temperature and humidity control chamber 4 is introduced into each of the measurement chambers 6. In addition, the first pumping means 5 preferably uses a vacuum pump to prevent the humidity of the air from being lowered during the movement of the air. Furthermore, the air introduced into the measuring chamber 6 is preferably evenly distributed over the entire part of the test body in the measuring chamber 6. This is preferably for measuring contaminants generated throughout the test body.

As such, when air having a constant temperature and humidity is introduced into each of the measurement chambers 6, contaminants generated from the interior material 7 provided in each of the measurement chambers 6, for example, VOCs, may be introduced into the air. Is released into the air. Subsequently, the second pumping means 10 corresponding to each of the measurement chambers 6 is used to pump air containing contaminants in the respective measurement chambers 6. At this time, each of the second pumping means 10 pumps the air inside each of the measurement chambers 6 through each sampling means 9 for sampling only contaminants contained in the air. Preferably each said second pumping means 10 is a suction pump.

Each of the sampling means 9 passes pure air in the air discharged by the pumping of the second pumping means 10 and collects only contaminants contained in the air. Preferably, a heat desorption tube is used.

Hereinafter, the results of the simulation of the air flow in the measurement chamber of the pollutant collecting device according to the present invention will be described. 3 schematically shows the modeling of the measuring chamber 6. The measuring chamber 6 according to one embodiment of the invention is preferably provided in a cylindrical shape. First, Fig. 3 (a) is a perspective view of a simulation model created to confirm by computer simulation whether the regulated air is supplied into the chamber. The simulation used Phoenix, a fluid analysis program, and shows a 1/2 form for confirming that air is supplied in the Z-axis direction of the measuring chamber 6 and discharged to the outside. In addition, FIG. 4 shows that in order to precisely analyze the air flow inside the measuring chamber 6, the grid is set to several dozens, for example, sixty in the x, y and z axis directions.

The temperature condition used for the simulation in the measurement chamber 6 is set to the same temperature condition of the constant temperature and humidity control chamber 4 at the tip, and then the actual temperature is measured to verify the temperature control capability of the collecting device of the present invention. As a result of the measurement, the temperature deviation at the inlet and the outlet of the measuring chamber 6 was found to be within 0.1 ° C. The air flow in the measuring chamber 6 is assumed to be forced convection because an actual microfluidic pump is used on the outlet side. In this case, the actual measurement can be freely adjusted according to the size of 0.177 [L / min] or the measuring chamber 6 using a microfluidic pump at the discharge port, but in the present invention, the size of the measuring chamber 6 and the VOCs measurement standard are considered. In the same manner, the flow rate on the outlet side was also set to 0.177 [L / min] in the simulation. The reason why the minimum flow rate is 0.177 [L / min] is because 0.5 times per hour, which is the minimum measurement of the number of ventilation times in the measuring chamber 6, and 0.2 [L / min], which is a typical VOCs sampling maximum flow rate, are considered. In practice, it is also possible to freely change the flow rate by changing the size of the measuring chamber of the collecting device according to the present invention and adjusting the size of the interior material or the test object.

As a result of the simulation, the air flow distribution (x, y, z direction) in the measurement chamber 6 is as shown in FIG. It can be seen that it is evenly distributed over. In addition, it can be confirmed that the airflow reaching the bottom of the measuring chamber 6 is exhausted to the outlet again. Reference numeral 51 shows that the air flow of the air introduced into the measuring chamber 6 is spread throughout the chamber 6.

Furthermore, in the case of implementing the contaminant collecting device according to the present invention by manufacturing the shape of the measuring chamber 6 verified through the simulation in FIG. 6, whether the temperature and humidity conditions in the measuring chamber 6 are achieved. You can check it. 6 (a) is a graph showing the results of measuring the temperature change in each of the chambers (4, 6, 8), Figure 6 (b) is a change in humidity in each of the chambers (4, 6, 8) Is a graph showing the results of the measurement. First, referring to FIG. 6 (a), when the temperature of the air supplied into the constant temperature and humidity control chamber 4 is set to 20 ° C., the constant temperature and humidity control chamber 4 and the constant temperature control chamber 8 are about 31 minutes later. ) And the air in the first and second measuring chambers 6 reach the set temperature, 20 ° C. Afterwards, if the temperature is set back to 28 ° C., the air inside each of the chambers 4, 6, and 8 reaches 28 ° C. after about 39 minutes.

In addition, referring to Figure 6 (b), if the humidity of the air supplied to the constant temperature and humidity control chamber (4) is set to 40%, each of the chambers after about 40 minutes after operating the pollutant collecting device according to the present invention When the humidity of the internal air of the fields 4, 6 and 8 reaches the set target value of 40%, and then changes the target set value to 60%, the changed target value reaches 60% after about 20 minutes after the set value is changed, and again If you adjust the target down to 40%, you will reach the adjusted target of 40% after 60 minutes.

6 (a) and 6 (b), it can be seen that the air inside each of the chambers quickly reaches a set temperature and humidity, and of course, its value remains constant even after it is once stabilized.

The present invention also provides a method of collecting contaminants to measure contaminants generated from building interior materials. 7 is a flow chart showing a pollutant collection method according to the present invention. Referring to FIG. 7, first, the air is supplied into the constant temperature and humidity control chamber 4 at the amount and pressure set by the air supplier 1 (S701). At this time, in order to minimize contamination by the external environment, pure air is supplied into the constant temperature and humidity control chamber (4). The air supply unit 1 detects an amount of air supplied through a flow meter installed at the front end of the constant temperature and humidity control chamber 4 and supplies a predetermined amount of air into the constant temperature and humidity control chamber 4. Stop. When the air supply is completed in the constant temperature and humidity control chamber 4, the constant temperature and humidity control chamber 4 operates to adjust the air inside the set temperature and humidity (S702). At this time, the temperature and humidity control of the constant temperature and humidity control chamber (4) can be easily implemented by those of ordinary skill in the art. Preferably, it may be implemented using a product (model name: TH-Ⅰ) manufactured by JEIO Tech.co. In general, such a chamber preferably includes a microprocessor inside to realize control necessary for various operations, including control of temperature and humidity of air.

Subsequently, the constant temperature / humidity control chamber 4, in particular, the internal microprocessor checks whether the temperature and humidity of the internal air are at a set value (S703), and if not, the process proceeds to the step (S702) and is continuously set. The temperature and humidity are adjusted, and if the temperature and humidity set in the step S703 are reached, control is performed to maintain the constant temperature and humidity of the air (S704). As described above, the air is pumped into the one or more measuring chambers 6 while the constant temperature and humidity of the air is maintained so that the air flows into the measuring chambers 6 (S705). Each of the measuring chambers 6 includes a test object, for example, a building interior material 7, to measure the degree of generation of contaminants. Therefore, when air flows into each of the measurement chambers 6, pollutants, for example, VOCs generated in the interior material 7 are released into the air. Here, it should be noted that a constant temperature control chamber 8 including the respective measuring chambers 6 is provided to prevent the temperature of the air from being lowered when air is injected into the respective measuring chambers 6. However, the constant temperature control chamber 8 may preferably be used when the temperature of the air injected into the respective measurement chambers 6 decreases.

Subsequently, air (including contaminants) flowing through each of the measuring chambers 6 through each sampling means 10 corresponding to the respective measuring chambers 6 is provided using the second pumping means 10. Discharge to the outside (S706). At this time, air is passed through the sampling means 10 and only contaminants contained in the air are collected (S707). By analyzing the collected pollutants to measure the concentration of the pollutants released from the interior (7).

As described above, the present invention is generally used in the field of studying the indoor environment. Since contaminants generated from building materials are greatly influenced by temperature and humidity, it is controlled to maintain the temperature and humidity set as air primarily during collection, and secondly, the air having the controlled temperature and humidity is constructed. Inject into a volume chamber containing the material.

The detailed description and drawings of the present invention disclose a preferred embodiment to help understand the present invention, and do not limit the scope of the present invention, and the scope of the present invention is determined by the above detailed description. Rather, it should be determined by the appended claims.

According to the present invention, since the test object to measure the degree of pollutant emission is not affected by changes in ambient temperature and humidity, there is an advantage in that the pollutant concentration can be accurately measured. In addition, it is efficient to measure several test specimens at once using a small measuring chamber.

Furthermore, since there is no change in the temperature and humidity of the air from the first injection of the air to the final discharge, it is possible to capture pollutants emitted from the test specimens in each measuring chamber at the same conditions at all times.

In addition, according to the present invention, by using the constant temperature and humidity control chamber, it is possible to maintain and control the temperature and the humidity at a low cost.

1 is a schematic diagram of a conventional pollutant collecting device.

2 is a schematic diagram of a pollutant collecting device according to an embodiment of the present invention.

3 is a schematic diagram modeling a measurement chamber according to an embodiment of the present invention.

Figure 4 is a schematic view of the measurement chamber in accordance with an embodiment of the present invention divided into a plurality of scales on the x, y, z axis.

FIG. 5 is a schematic diagram illustrating a simulation result of air flow in the measurement chamber modeled in FIG. 3.

Figure 6 is a graph showing the results of measuring the temperature and humidity in the interior of each chamber according to the present invention.

7 is a flowchart showing a method for collecting pollutants according to an embodiment of the present invention.

 Explanation of symbols on the main parts of the drawings

1: air supply 2: regulator

3: flow meter 4: constant temperature and humidity control chamber

5: first pumping means 6: measuring chamber

7: Test object (building interior material) 8: Constant temperature control chamber

9: sampling means 10: second pumping means

Claims (16)

In the contaminant collecting device for measuring the concentration of contaminants generated from the test object, A constant temperature and humidity control chamber for controlling the temperature and humidity of the air supplied to the inside to be maintained at a set value; At least one measuring chamber including a test body therein; First pumping means connected to the respective chambers between the constant temperature and humidity control chamber and the measurement chamber to pump the air inside the constant temperature and humidity in the constant temperature and humidity control chamber into the measurement chamber; Second pumping means for pumping air inside the measurement chamber to the outside; And Sampling means disposed between the measurement chamber and the second pumping means, for sampling contaminants contained in air pumped out by the second pumping means; Pollutant collecting device comprising a. The method of claim 1, And a constant volume control chamber having a predetermined volume to control the temperature of the air pumped into the measuring chamber to be maintained at the set value by including the respective measuring chambers therein. The method according to claim 1 or 2, Pollution collecting device further comprises an air supply means for supplying air into the constant temperature and humidity control chamber. The method of claim 3, wherein The air is pollutant collecting device, characterized in that the purified pure air. The method of claim 1, The interior of each chamber is a pollutant collecting device, characterized in that containing a stainless component or a glass component. The method of claim 1, The second pumping means is a pollutant collecting device, characterized in that for pumping the internal air from the respective measuring chamber to the outside through the sampling means to discharge. The method of claim 1, And each chamber has a constant volume. The method of claim 1, The pollutant collection device, characterized in that the volatile organic compounds (VOCs). The method of claim 1, The test piece is a pollutant collecting device, characterized in that containing a petrochemical material. In the contaminant collection method for measuring the concentration of contaminants generated from the test body, A constant temperature and humidity control step of controlling the temperature and humidity of the air contained in the first chamber to be maintained at a set value, respectively;  An air transfer step of transferring air in the first chamber into at least one second chamber each including a test body therein; A constant temperature control step of controlling the temperature of the air transferred into the second chamber to be maintained at the set value; A pumping step of pumping the internal air from the second chamber to the outside; And A collecting step of collecting contaminants contained in the internal air pumped to the outside; Pollutant collection method comprising a. The method of claim 10, And after the constant temperature and humidity control step, further comprising an air supply step of supplying air into the first chamber. The method of claim 11, And the air is purified pure air. The method of claim 10, Each chamber comprises a stainless component or a glass component. The method of claim 10, And after the collecting step, ventilating the air inside each of the second chambers. The method of claim 10, The pollutant collection method, characterized in that the volatile organic compounds (VOCs). The method of claim 10, The air transfer step is a method for collecting pollutants, characterized in that for transporting the air in such a way that the air in the first chamber is in contact with the entire portion of the test body in the second chamber.