KR980003551A - Sampling device for air pollution analysis method, collection filter manufacturing method and sampling post-treatment method - Google Patents

Abstract

The present invention relates to a sampling apparatus for analyzing air pollution, a method of manufacturing a collecting filter, and a post-sampling method, wherein an inflow impactor for crushing and injecting sampled air to be sampled into fine particles having a predetermined size and a uniform flow of the introduced sampled air. A gas component collecting part equipped with an air flow holder for guiding in a straight state, a plurality of collecting filters for adsorbing only gas components in the introduced sample air, and a particle component in the sample air passing through the gas component collecting part. And a particle component collecting part equipped with a plurality of filters for adsorbing the vacuum, and a vacuum pumping part pumped to allow a predetermined amount of sample air to flow within a predetermined time. Therefore, according to the present invention, a porous metal sheet filter can separate gas and particle components to collect contaminants in the air, thereby further improving sampling efficiency, and allowing particles and ions in spaces to be cleaned. The degree of contamination can be assessed fairly accurately.

Description

Sampling device for air pollution analysis method, collection filter manufacturing method and sampling post-treatment method

Since this is an open matter, no full text was included.

1 is a cross-sectional view schematically showing the configuration of a sampling apparatus according to the present invention.

FIG. 2 is an enlarged perspective view showing an extracting filter of FIG.

6 is a view showing a state in which the collecting filter according to the present invention is coated.

Claims (21)

An inlet impactor for crushing and introducing sample air to be sampled into fine particles of a predetermined size, an air flow holder for guiding a straight state so that the flow of the introduced sample air is uniform, and only a gas component of the introduced sample air A gas component collecting portion equipped with a plurality of collecting filters for adsorption, a particle component collecting portion equipped with a plurality of filters for adsorbing a particulate component in sample air passing through the gas component collecting portion, and a predetermined amount of a sample within a predetermined time Sampling apparatus for analyzing the air pollution degree characterized in that it comprises a vacuum pumping unit which is pumped to allow air to be introduced. The method of claim 1, wherein the inflow impactor comprises a plurality of nozzles capable of filtering the air particles introduced into the closed space through a plurality of inlets to a predetermined size, and the sample air passed through the nozzles to be pulverized again into fine particles. And an impact ring mounted at a position opposite to the nozzle hole so that the air pollutant analysis sampling device can be used. The sampling apparatus for analyzing an air pollution level according to claim 2, wherein the inflow impactor filters out the size of the sample air particles to 2.5 µm or less. The air pollution analysis sampling of claim 1, wherein the gas component collecting unit comprises filters of a metal material coated with a target chemical for selectively evaluating a contamination concentration and provided with a plurality of through holes at predetermined intervals. Device. 5. The gas filter of claim 4, wherein the gas component collecting unit sequentially collects HNO ₃ (g) gas components from top to bottom, and collects HNO ₃ (g) and SO ₂ (g) gas components. And a second filter, a third filter capable of obtaining a substantial concentration of HNO ₂ (g), and a fourth filter for collecting ammonia (NH ₃ ). The method of claim 1, wherein the particle component collecting unit collects a particle component at an upper portion thereof, and at a lower portion thereof, filters of synthetic fiber material for collecting ions dissociated from the particles are provided at predetermined intervals. Sampling device. The sampling apparatus for analyzing air pollution levels according to claim 6, wherein the particle component collecting part has a Teflon filter on the upper part and a pair of nylon filters on the lower part. The vacuum pumping unit of claim 1, wherein the vacuum pumping unit comprises a vacuum pump for generating power for introducing air into the inside, a power control unit for supplying and cutting off power, and controlling an operating time, a flow meter for controlling the flow rate of the sample air introduced thereto; Sampling device for air pollution analysis characterized in that it comprises a flow control valve. Embedding a collection filter inside a vessel containing the chemical to be coated, depressurizing the internal pressure of the vessel by about 30% above atmospheric pressure, placing the depressurized vessel into an ultrasonic cleaner for a predetermined period of time with low pressure and ultrasonic vibration. Adding air to extract the air inside the collecting filter, and putting the coated collecting filter into the dryer through the above step and drying the predetermined amount of air for a predetermined time, thereby collecting the air pollution analysis collecting filter. Manufacturing method. 10. The method of claim 9, wherein the collection filter is made of a metal material having a plurality of holes formed therein, capable of separately collecting only gas components. The method of claim 10, wherein the collection filter comprises: a first filter for collecting HNO ₃ (g) gas component, a second filter for collecting HNO ₃ (g), SO ₂ (g) gas component, and a substantially HNO ₂ ( and g) a third filter capable of obtaining a concentration, and a fourth filter for collecting ammonia (NH ₃ ). The method of claim 11, wherein the first filter is coated in a mixed solution of 90 ml ultrapure water and 10 ml methanol (CH ₂ OH) in 0.1 g NaCl. The method of claim 11, wherein the second and third filters are coated in a mixed solution of 1 g Na ₂ CO ₃ , 1 g glycerin (C ₃ H ₅ (OH) | ₃ ), 50 ml ultrapure water, and 50 ml methanol (CH ₃ OH). Method for producing a collection filter for analyzing air pollution degree, characterized in that the. The method of claim 11, wherein the fourth filter is coated in a mixed solution of 1 g citric acid (C ₆ H ₈ O ₇ ), 50 ml ultrapure water, and 50 ml methanol (CH ₃ OH). Method of making a collecting filter. The method of claim 9, wherein the drying step comprises passing the clean air through the collection filter at 3 l / min and drying the filter for about 1 hour. Sampling step of separating and collecting the air contaminants of the gas and particulate components when passing the sample air through a plurality of collection filters, and a contaminant extraction step of dissolving and extracting the air pollutants adsorbed to the collection filters in a predetermined solution; And an analysis step of analyzing the concentration of the contaminants extracted from the collection filters by using an ion analyzer. The sampling post-treatment apparatus of claim 16, wherein the collection filter comprises a metal filter having a plurality of through holes formed therein, capable of separately collecting only gas components. 18. The method of claim 17, wherein the capture filter comprises a first filter for collecting HNO ₃ (g) gas components, a second filter for collecting HNO ₃ (g), SO ₂ (g) gas components, and a substantially HNO ₂ ( and g) a third filter capable of obtaining a concentration, and a fourth filter for collecting ammonia (NH ₃ ). 19. The method of claim 18, wherein the impurity extraction step comprises the first filter in 20 ml of ultrapure water, the second and third filters in 15 ml of 0.1% hydrogen peroxide (H ₂ O ₂ ), and the fourth filter in 20 ml of ultrapure water, respectively. Sampling post-treatment method for analysis of air pollution, characterized by dissolving. 17. The method of claim 16, wherein the collection filter comprises a Teflon filter for collecting particle components and a nylon filter for collecting ions dissociated from the particles. 21. The method of claim 20, wherein the impurity extraction step comprises dissolving the Teflon filter in 10 ml of 2 ml ethanol (C ₂ H ₅ OH) and 0.1% hydrogen peroxide (H ₂ 0 ₂ ) and the nylon filter in 10 ml of ultrapure water, Sampling post-processing method for analyzing air pollution. ※ Note: The disclosure is based on the initial application.