KR20060064586A - Temperature and flow control system of mixed air for organic emissions from building materials - Google Patents

Abstract

The present invention relates to a system for measuring the discharge amount of hazardous substances in building materials which can improve the reliability of test analysis while maintaining a constant flow rate to the automatic flowmeter. The harmful substance emission amount measurement system of a building material according to the present invention includes a small chamber in which air having a constant humidity is supplied by a humidity control system, and a test piece is located and installed in a constant temperature room; A mixer for mixing dry air and wet air supplied from the humidity control system; An automatic flow meter which adjusts the flow rate of the mixed air supplied from the mixer and is installed in the constant temperature room; A temperature and flow rate control system of the mixed air installed in the constant temperature chamber and heating and cooling the air passing through the automatic flow meter to a predetermined temperature in order to prevent the occurrence of condensation in the automatic flow meter; A sensor that senses the temperature and humidity in the air supplied to the small chamber from the temperature and flow control system of the mixed air and sends it to the monitor; An adsorption tube for collecting a sample from the air discharged from the small chamber; And a pump for collecting a sample from the air passing through the adsorption tube.

Building Materials, Formaldehyde, Volatile Organic Compounds, Emissions Collection System

Description

Temperature and Flow control system of mixed air for organic emissions from building materials}

1 is a view schematically showing a system for measuring the emission amount of a hazardous substance of a conventional building material.

2 is a view schematically showing a system for measuring the emission amount of hazardous substances in building materials according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: constant temperature chamber 2: small chamber

3: heater 4: cooler

5: automatic flow meter (MFC) 6: mixer

7: mixed air temperature and flow control system

8: test piece 9: sensor

10: MFC Pump 11: Air Supply

13: filter 14: dry bulb flow regulator

15: wet bulb flow regulator 16: bubble bottle

17: suction tube 18, 107: monitor

The present invention relates to a system for measuring the amount of harmful substances released from building materials, and more particularly, to a system for collecting the amount of harmful substances emitted from various building materials such as building structures or interior materials using a small chamber.

In general, various building materials such as newly constructed building structures or interior materials include harmful substances.

That is, it is known that harmful substances such as formaldehyde and volatile organic compounds (VOCs) are gradually released over a long period of time from materials such as wallpaper, floorboards and adhesives as well as concrete, causing serious damage to the human body such as disease. .

Therefore, in recent years, a tester for testing the release and release time of harmful substances from various building materials and construction materials has been proposed and utilizes the data.

One method is to measure the amount of harmful substances emitted from the building materials by the small chamber method. This test method obtains the concentration of air in the small chamber, the accumulated flow of air through the chamber, and the surface area of the test piece. It is a method to measure volatile organic compounds and formaldehyde emission per unit area of target building materials. In building materials such as plates, panels and boards applied as building materials, roll-shaped products such as wallpaper carpets and flooring materials, paints for interior finishing, and liquid and solid forms of adhesives used in the construction of interior materials. Applicable to the measurement of volatile organic compounds and formaldehydes that occur.

The small chamber method determines the emission intensity of volatile organic compounds and aldehydes per unit area of the building material to be tested by calculating the air concentration in the discharge test chamber with the supplied air open and the air flow rate and the surface area of the test piece. That's how. Completely mix the air into the discharge test chamber with the conditions of constant temperature, relative humidity, ventilation volume and open outlet, inject and extract the air collected at the chamber outlet to determine the air concentration, blank concentration and ventilation volume inside the test chamber, Calculate VOCs and aldehyde emission intensity per surface area over a specific time (t)

1 is a view schematically showing a conventional system for measuring the emission amount of hazardous substances in building materials.

In Fig. 1, the small chamber 101 is located in a thermostat 102 equipped with a temperature control system and is made of stainless steel or glass or the like, as described above, and has a volume of 20 l. In the small chamber 101, an air nozzle 101 'installed at a lower portion thereof and a fixing frame 100 for fixing the test piece 103 at an upper portion of the air nozzle are installed, and the test piece 103 installed at the fixing frame includes a test piece ( In order to accurately measure the harmful substances emitted from the surface of 103), the cutting surface and the back surface of the specimen are sealed with aluminum foil and fixed to the fixing frame.

In such a system, the small chamber 101 is installed in the constant temperature chamber 102 as described above to control the small chamber 101 to a required temperature, for example, a temperature of 25 ° C., for temperature control of the small chamber 101. In addition, the relative humidity control in the small chamber 101 is controlled by the humidity control device 105 to maintain the supply air supplied from the air supply device 104 to the required humidity, for example, a relative humidity of 50%. . The temperature and relative humidity in the small chamber 101 can be continuously monitored through the monitor 107. In addition, condensation should not occur in the small chamber 101, and water for humidity control should not be directly sprayed.

The mixer 108 mixes the dry air and the humidified air supplied from the humidity control device 105 and moves from the air supply device 104 to the small chamber 101 by an automatic flowmeter 106 (MFC). The amount of air supplied is controlled. An automatic flowmeter 106 is installed at the outlet of the small chamber 101 to measure the correct number of ventilations in the small chamber 101.

On the other hand, the sensor 109 installed in the mixer 108 detects the temperature and humidity of the air supplied to the small chamber 101 and transmits it to the monitor 107. According to the detection result of the sensor 109, the supply amount and the humidity of the air supplied to the small chamber 101 may be controlled by the air supply device 104 and the humidity control system 105.

The test as described above is performed for about 3 or 7 days, and the air discharged from the small chamber 101 passes through the adsorption tube 110, which is a sampling tube disposed outside the small chamber 101, to collect the sampling pump. It is sent to the atmosphere by the MFC pump 111 or the vacuum pump 112.

Analysis of adsorption tubing analyzes TVOCs in scan mode using GC / MS. Analysis of aldehydes shows that the carboxyl compound DNPH receptor in the DNPH Cartridge is dissolved and eluted using acetonitrile. The eluted solution is quantified using high performance liquid chromatography (HPLC).

However, as described above, the conventional building materials hazardous substance discharge amount system regulates the flow rate by using a vacuum pump at the rear end of the small chamber regardless of the flow rate of the supply air. It can be generated and the release of harmful substances released from the specimen can be suppressed.

In addition, when the supply air volume is lower than the flow rate by the MFC, the entire system may be vacuumed, thereby releasing harmful substances (VOCs and formaldehyde) released from the test specimen.

Therefore, an object of the present invention is to install an automatic flow regulator installed at the rear end of the chamber in the conventional discharge chamber system in the front of the chamber, to remove the harmful pressure or vibration state in the chamber and after a certain time at atmospheric pressure to release the harmful substances released from the chamber To provide a harvestable system.

An object as described above, the small chamber is supplied with air having a constant humidity by the humidity control system, the test piece is located and installed in the constant temperature room; A mixer for mixing dry air and wet air supplied from the humidity control system; An automatic flow meter which adjusts the flow rate of the mixed air supplied from the mixer and is installed in the constant temperature room; A temperature and flow rate control system of the mixed air installed in the constant temperature chamber and heating and cooling the air passing through the automatic flow meter to a predetermined temperature to prevent generation of condensation in the automatic flow meter; A sensor that senses the temperature and humidity in the air supplied to the small chamber from the temperature and flow control system of the mixed air and sends it to the monitor; An adsorption tube for collecting a sample from the air discharged from the small chamber; And it can be achieved by a system for measuring the emission amount of harmful substances of building materials according to the invention, characterized in that it comprises a pump for taking a sample from the air passing through the adsorption tube.

In the temperature control system, the mixed air passes through the automatic flow meter (40-45 ° C.) to prevent condensation in the flow controller, and the air heated by the flow meter is cooled back to the temperature required for the experiment (25 ° C.) by the cooler. It is used.

In the above, one or more automatic flowmeters are provided, each automatic flowmeter being heated by a heater.

Alternatively, the object as described above is used in accordance with the present invention to maintain a constant temperature of the air supplied to a small chamber installed in a constant temperature chamber of a system for measuring the emission of toxic substances in building materials. In order to prevent the occurrence of condensation in the automatic flowmeter, it can be achieved by the temperature and flow control system of the mixed air heating and cooling the air passing through the automatic flowmeter to a predetermined temperature.

In the above, the mixed air passing through the automatic flow regulator maintained at 40-45 ° C. is cooled to a temperature of 25 ° C. during the passage of the cooler mounted at the rear end, and then supplied to the small chamber.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view schematically showing a system for measuring the emission amount of hazardous substances in building materials according to the present invention.

As shown in FIG. 2, the system for measuring the emission amount of toxic substances in building materials according to the present invention is filtered by the filter 13 from the air supply device 11, and then the dry bulb flow meter 14 to have a humidity of 50%. And the wet-bulb flowmeter 15 and the bubble bottle 16 are sent to the mixer 6 so as to mix with each other. The air flow path of the harmful substance emission amount measuring system of the building material of the present invention flows through the mixer (6) in which dry air and wet air are mixed, and flows the temperature and flow control system of the mixed air to control the flow rate, and the temperature and It passes through a sensor that senses humidity and feeds it into a small chamber for measuring emissions of hazardous substances.

On the other hand, in the constant temperature chamber 1 in which the small chamber 2 is arranged, the automatic flowmeters 5 and MFC for supplying air of a constant flow rate to the small chamber 2 are heated to a temperature of 40-45 ° C. according to the present invention. After the heater 3 and the cooler 4 for cooling the mixed air to a temperature of 25 ° C. when the mixed air is heated to a temperature of 25 ° C. or more by the heater 3, the rear end of the temperature and flow rate control system 7 of the mixed air Is provided.

By means of the temperature and flow control system 7 of the mixed air as described above, the mixed air supplied from the mixer 6 to the one or more automatic flowmeters 5 is heated by the heater 3 to a temperature of 40-45 ° C. It is supplied to the cooler 4 made of a coil in the turned state. Since the mixed air is heated to a temperature of 40-45 ° C. by the heater 3, condensation can be prevented. In order to prevent condensation in this way, the mixed air heated to 40-45 ° C. is cooled to a temperature of 25 ° C. by heat exchange with air in the constant temperature chamber 1 while passing through the cooler 4 made of a coil. According to the present invention, as described above, since the automatic flowmeter is installed in the constant temperature chamber 1, the temperature maintenance of the pure air under the influence of the external temperature can be made constant.

Further, the temperature and humidity of the mixed air are sensed by the sensor 9 while the mixed air is supplied from the temperature and flow rate control system 7 of the mixed air to the small chamber 2 provided with the test piece 8. The temperature and humidity of the mixed air detected by 9) are sent to an external monitor 18 which is monitored for 3 or 7 days.

The mixed air discharged from the small chamber 2 is naturally discharged at atmospheric pressure at 167 ml / min (100%), and is always kept at atmospheric pressure while being discharged inside the chamber 2, so that the building material is used in the interior of a new building. In the same way as the atmospheric pressure, the same experiments as in the case of naturally releasing pollutants (VOCs and formaldehyde) can be performed. This satisfies the regulations of the International Standard (ISO).

On the other hand, the small chamber 2 naturally releases 20% (33 ml / min) of the 167 ml / min that is released during sampling, and 80% (134 ml / min) of the MFC pump Since the sample is collected by the suction tube 10, the chamber 2 is maintained at atmospheric pressure even during the collecting process.

According to the system for measuring emissions of toxic substances in building materials according to the present invention having the structure as described above, the chamber is controlled by adjusting the flow rate at the front end of the chamber when air having a predetermined temperature and humidity sent to the small chamber is introduced into the chamber. Maintains atmospheric pressure within the sample and prevents harmful substances emitted from the specimen from being suppressed and promoted by underpressure or vacuum and collects less than 80% during the sampling process. Can improve the reliability.

Claims (7)

A small chamber in which air having a constant humidity is supplied by a humidity control system, and a test piece is placed and installed in a constant temperature room; A mixer for mixing dry air and wet air supplied from the humidity control system; An automatic flow meter which adjusts the flow rate of the mixed air supplied from the mixer and is installed in the constant temperature room; A temperature and flow rate control system of the mixed air installed in the constant temperature chamber and heating and cooling the air passing through the automatic flow meter to a predetermined temperature in order to prevent the occurrence of condensation in the automatic flow meter; A sensor that senses the temperature and humidity in the air supplied to the small chamber from the temperature and flow control system of the mixed air and sends it to the monitor; An adsorption tube for collecting a sample from the air discharged from the small chamber; And And a pump for collecting a sample from the air passing through the adsorption pipe. The method of claim 1, wherein the flow path of the air in the system for measuring the discharge amount of toxic substances in the building material flows through a mixer in which dry air and wet air are mixed, and the temperature and flow control system of the mixed air for adjusting the flow rate. Hazardous substance emission measurement system of the building materials, characterized in that supplied to the small chamber to measure the amount of harmful substance emission through the sensor for sensing the temperature and humidity. 2. The temperature and flow control system of the mixed air according to claim 1, wherein the mixed air passing through the automatic flowmeter is cooled after being heated to a temperature of 40-45 ° C by a heater installed at the bottom of the automatic flowmeter. Hazardous substance emission measurement system for building materials. The system of claim 2, wherein the mixed air heated to 40-45 ° C. by the heater is cooled to 25 ° C. while passing through a coiled cooler. 4. A system according to claim 2 or 3, wherein at least one automatic flow meter is provided, each automatic flow meter being heated by the heater. It is used to keep the temperature of the air supplied to the small chamber installed in the constant temperature chamber of the building material emission measurement system of the building material constant, and to prevent the condensation from occurring in one or more automatic flowmeters. A system for measuring the emission amount of hazardous substances in building materials, comprising: a temperature and flow rate control system for mixed air having a heater for heating to a predetermined temperature and a cooler for cooling the heated air to a predetermined temperature. The method of claim 5, wherein the mixed air passing through the automatic flowmeter is heated to a temperature of 40-45 ℃ by the heater, cooled to a temperature of 25 ℃ while passing through a coiled cooler is supplied to the small chamber. Emissions measurement system for building materials.

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