KR20230081017A - Aerosol measuring equipment and method for measuring aerosol in air using the same - Google Patents

Abstract

According to the present invention, the dehumidified air generator 100; Natural air supply unit 200; and an aerosol measuring unit 300, wherein the dehumidified air generating unit 100 includes a compressor 110 sucking in external air and generating compressed air; a cooling unit 120 that lowers the temperature of the compressed air; a dehumidifying unit 130 that lowers the humidity of the compressed air; and a filter 140 for removing aerosols from the compressed air.
According to the present invention, there is an effect of increasing the accuracy of the measurement sensor by sampling air to be measured in which a constant temperature is maintained and humidity is minimized.

Description

Aerosol measuring equipment and method for measuring aerosol in air using the same {Aerosol measuring equipment and method for measuring aerosol in air using the same}

The present invention relates to an aerosol measuring device capable of accurately measuring the concentration of aerosols such as fine dust in the air. More specifically, an aerosol measuring device and a method for measuring aerosols in the air using the aerosol measuring device that can increase the measurement accuracy of an aerosol measuring sensor by preparing sample air to be measured by mixing natural air and dried air with low humidity. it's about

The present invention relates to an aerosol measuring device for measuring the concentration of fine particles such as fine dust in the air. In order to increase the accuracy of a sensor for measuring aerosol, it is important to lower the humidity of the air to be measured. In the case of conventional measuring equipment, air in the atmosphere was sucked in to separate moisture or sample air dried by hot air was measured.

However, according to the prior art, in the process of separating or drying the moisture in the air, the aerosol included is also separated or destroyed, making it difficult to accurately measure the aerosol.

Various technologies have been applied to measuring equipment to solve these problems, but problems such as flow imbalance, condensation, and difficulty in maintaining constant humidity and temperature have not been solved.

Republic of Korea Patent Publication 10-2011-0014557 Korean Registered Patent No. 10-2199310

The present invention was derived to solve the above-described problems of the conventional aerosol measuring equipment, and an object of the present invention is to maintain a constant temperature and minimize humidity to sample an aerosol to be measured so as to increase the accuracy of the measuring sensor. It is to provide a measuring device and a method for measuring aerosols in the air using the same.

Another object of the present invention is to provide an aerosol measuring device capable of providing a constant flow rate of compressed air to increase the accuracy of a measuring sensor and a method for measuring aerosol in the air using the same.

According to one aspect of the present invention, the dehumidified air generator 100; Natural air supply unit 200; and an aerosol measuring unit 300, wherein the dehumidified air generating unit 100 includes a compressor 110 sucking in external air and generating compressed air; a cooling unit 120 that lowers the temperature of the compressed air; a dehumidifying unit 130 that lowers the humidity of the compressed air; and a filter 140 for removing aerosols from the compressed air.

In this case, the mixed air generator generates mixed air (c) by mixing the dehumidified air (a) generated by the dehumidified air generator 100 and the natural air (b) provided by the natural air supplier 200. (400), wherein the mixed air generating unit (400) may be an aerosol measuring device characterized in that it supplies the mixed air (c) to the aerosol measuring unit (300).

In addition, the compressor 110 may be an aerosol measuring device characterized in that it includes a drain 112 for discharging moisture in the inner space 111 to the outside.

In addition, the cooling unit 120, a vortex tube 121 for receiving the compressed air and classifying and discharging low-temperature compressed air and high-temperature compressed air; and a copper pipe 122 provided with a flow space through which the compressed air flows.

In addition, the dehumidifying unit 130 may be an aerosol measuring device comprising a centrifugal water separator 131 that separates moisture from the compressed air by receiving the compressed air and rotating it at high speed.

In addition, the dehumidified air generator 100 further includes a discharge unit 150 for discharging the dehumidified air (a) to the outside, and the discharge unit 150 has a flow rate of the dehumidified air (a) discharged. It may be an aerosol measuring device characterized in that it includes; a back pressure valve 151 that keeps the constant.

According to another aspect of the present invention, in the aerosol measuring method using an aerosol measuring device, a first step (S100) of generating the dehumidified air (a) using the dehumidified air generating unit (100); a second step (S200) of generating the mixed air (c) by mixing the dehumidified air (a) and the natural air (b) using the mixed air generator 400; and a third step (S300) of measuring the aerosol concentration in the mixed air (c) using the aerosol measuring unit 300.

According to the present invention, there is an effect of increasing the accuracy of the measurement sensor by sampling air to be measured in which a constant temperature is maintained and humidity is minimized.

According to the present invention, there is an effect of increasing the accuracy of the measurement sensor by providing a constant flow rate of compressed air.

1 is a block diagram of an aerosol measuring device according to an embodiment of the present invention.
2 is a configuration layout diagram of a dehumidified air generating unit according to an embodiment of the present invention.
3 to 5 are performance comparison diagrams of aerosol measuring equipment according to an embodiment of the present invention and conventional measuring equipment.

An embodiment of an aerosol measuring device according to the present invention and an aerosol measuring method in the air using the same will be described in detail with reference to the accompanying drawings. and duplicate descriptions thereof will be omitted.

In addition, terms such as first and second used below are only identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are not limited by terms such as first and second. no.

In addition, coupling does not mean only the case of direct physical contact between each component in the contact relationship between each component, but another configuration intervenes between each component so that the component is in the other configuration. It should be used as a concept that encompasses even the case of contact with each other.

The present invention relates to an aerosol measuring device capable of measuring the concentration of aerosol in the atmosphere.

Aerosols can be classified into ultrafine, fine, and ultrafine particles according to particle size, and most of the particles have non-spherical shapes. These aerosols affect the climate change and weather change of the earth, and can cause respiratory diseases in living organisms. Therefore, measurement of aerosol concentration in the atmosphere is an important factor in weather change and weather forecasting.

The lower the humidity of the air to be measured, the higher the accuracy of the aerosol measurement sensor. Accordingly, the conventional aerosol measurement sensor generates dry air by inhaling natural air into the device and applying heat to heat the air, or by separating air and moisture using a cyclone water separator, etc. to produce dry air. The aerosol concentration was measured by measuring with a sensor.

However, in the case of this method, it is difficult to obtain an accurate aerosol concentration even if the aerosol contained in the dry air produced by the destruction or separation of the aerosol in the air during the process of direct heating or centrifugation is measured with a sensor.

Accordingly, in the present invention, natural air (b) in a natural state and dehumidified air (a) containing no aerosols and dehumidified air are mixed at a constant ratio to produce mixed air (c) with a lowered humidity, which is an aerosol After sensing using a sensor, we would like to present an aerosol measuring device that can derive final aerosol concentration information through a correction module that corrects the value changed according to mixing.

When the aerosol concentration is measured using the aerosol measuring device according to the present invention, the sensing accuracy of the aerosol measuring sensor can be increased because dry mixed air (c) having a lower humidity than natural air (b) in a natural state is used. In addition, since the final aerosol concentration information is derived by correcting the aerosol concentration contained in the mixed air (c) mixed at a constant ratio, the concentration of aerosol contained in the air can be accurately measured by reference to conventional measuring equipment.

An aerosol measuring device according to an embodiment of the present invention includes a dehumidified air generating unit 100, a natural air providing unit 200, and an aerosol measuring unit 300 (FIG. 1).

In this case, the dehumidified air generator 100 includes a compressor 110 that sucks in external air and generates compressed air, a cooling unit 120 that lowers the temperature of the compressed air, and a dehumidifier 130 that lowers the humidity of the compressed air. ) and a filter 140 for removing aerosols of compressed air.

The dehumidified air generating unit 100 is a component for generating dehumidified air (a) in which air in the atmosphere is sucked in to lower humidity and aerosols are removed.

As described above, since air in a natural state has high humidity, which lowers the accuracy of the measurement sensor, dehumidified air (a) and natural air (b) are mixed to create mixed air (c) with low humidity. In this case, since the concentration of the aerosol contained in the dehumidified air (a) may be different from that of the natural air (b) during the dehumidifying process, the aerosol is removed from the dehumidified air (a) and mixed to secure the ease of correction.

Accordingly, the aerosol measuring device according to an embodiment of the present invention mixes the dehumidified air (a) generated by the dehumidified air generator 100 and the natural air (b) provided by the natural air supplier 200 to obtain mixed air (c) may further include a mixed air generating unit 400 that generates (FIG. 1). The mixed air generating unit 400 supplies the mixed air c to the aerosol measuring unit 300 .

The aerosol measurement unit 300 includes an aerosol measurement sensor. A measurement sensor to which the present invention can be applied includes a light scattering coefficient measuring method or a light absorption coefficient measuring method.

The compressor 110 of the aerosol measuring device according to an embodiment of the present invention may include a drain 112 for discharging moisture in the inner space 111 generating compressed air to the outside. Moisture may be generated in the inner space 111 of the compressor 110 while the air introduced from the outside is compressed by the compressor 110 .

Accordingly, in the present invention, the water generated in the internal space 111 is discharged to the outside by using the drain 112 of the timer method for discharging the water to the outside at predetermined time intervals.

The cooling unit 120 according to an embodiment of the present invention receives compressed air, classifies and discharges low-temperature compressed air and high-temperature compressed air, and a copper tube provided with a flow space through which compressed air flows. (122) may be included.

The number of vortex tubes 121 and copper tubes 122 may be variously selected according to the temperature and moisture content of the introduced air.

The dehumidifying unit 130 according to an embodiment of the present invention serves to remove moisture contained in compressed air compressed by the compressor 110 . The dehumidifying unit 130 may include a centrifugal water separator 131 that separates moisture from the compressed air by receiving compressed air and rotating it at high speed, or a membrane-type dehumidifying film having dehumidifying power.

The dehumidified air generator 100 according to an embodiment of the present invention further includes a discharge unit 150 for discharging the dehumidified air (a) to the outside. A back pressure valve 151 for maintaining a constant flow rate may be included.

As described above, the aerosol measuring device mixes the dehumidified air (a) generated from the dehumidified air generator 100 and the natural air (b) provided from the natural air supply unit 200 to generate mixed air (c), Since this is the subject of measurement, it is necessary to provide a stable flow rate of dehumidified air (a) in order to keep the mixing ratio constant. Accordingly, the present invention is characterized in that the back pressure valve 151 is mounted on the outlet 150 of the dehumidified air generator 100 so that the dehumidified air a can be supplied at a constant flow rate.

The aerosol measuring device according to an embodiment of the present invention may further include a correction information calculation module 500 that corrects the final aerosol concentration information based on the measured concentration measured by the sensor in the aerosol measuring unit 300. .

The aerosol concentration measured by the aerosol measurement unit 300 is the concentration of the mixed air (c) in which dehumidified air (a) and natural air (b) are mixed. It is necessary to derive corrected values according to the mixing ratio of air (b), mixing temperature, and mixing humidity.

Accordingly, in the present invention, the correction information calculation module 500 is provided to calculate a corrected concentration value close to the aerosol concentration in the atmosphere.

Calculation of correction information can be calculated according to the equipment program/or dilution ratio [aerosol concentration in the atmosphere = measured concentration * mixed air flow rate/(mixed air flow rate - dehumidified air flow rate)].

In order to maintain the relative humidity of the equipment below a certain percentage, correction information can be derived by flexibly applying the mixing ratio of dehumidified air to 1/2, 1/4, etc. and inversely calculating the actual concentration.

In order to confirm the performance of the aerosol measuring equipment according to the present invention, each configuration was arranged as shown in FIG. 2 to test humidity change (FIG. 3), temperature change (FIG. 4), and flow rate change (FIG. 5).

In FIGS. 3 to 5, the upper graphs are test values in conventional aerosol measuring equipment, and the lower graphs are test values in aerosol measuring equipment according to the present invention.

In addition, in each graph, the numerical value marked in red is the physical quantity of air in a natural state, and the numerical value marked in blue represents the physical quantity of air in the aerosol measuring equipment.

3 is a graph showing changes in humidity, where the X axis is the number of measurements and the Y axis is the relative humidity. Referring to FIG. 3, it can be confirmed that the conventional aerosol measuring device shows a dehumidifying efficiency of about 27% relative humidity, whereas the aerosol measuring device according to the present invention shows a dehumidifying efficiency of less than 15% relative humidity, and thus has a more improved dehumidifying efficiency. there is.

4 is a graph showing temperature change, the X-axis is the number of measurements, and the Y-axis is the temperature in degrees Celsius. Referring to FIG. 4 , it can be seen that the aerosol measuring device according to the present invention shows little change in temperature compared to the high change in temperature of the conventional aerosol measuring device.

Figure 5 is a graph showing the change in flow rate, the X-axis represents the number of measurements, and the Y-axis represents the flow rate of air. Referring to FIG. 5 , it can be seen that the flow rate of the aerosol measurement device according to the present invention is maintained constant compared to the conventional aerosol measurement device having a high change in flow rate.

Hereinafter, an aerosol measurement method using an aerosol measurement device according to an embodiment of the present invention will be described.

The measuring method according to the present invention includes the first step (S100) of generating dehumidified air (a) using the dehumidified air generator 100, and the dehumidified air (a) and natural air using the mixed air generator 400. A second step (S200) of mixing (b) to generate mixed air (c) and a third step (S300) of measuring the aerosol concentration in the mixed air (c) using the aerosol measuring unit 300. can

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and the scope of the present invention described above It will be said that the technical idea and the technical idea together with the root are all included in the scope of the present invention.

100: dehumidified air generator
200: natural air supply unit
300: aerosol measuring unit
400: mixed air generating unit
500: correction information calculation module

Claims (7)

Dehumidified air generator 100;
Natural air supply unit 200; and
In the aerosol measuring device including; aerosol measuring unit 300,
The dehumidified air generator 100,
A compressor 110 for generating compressed air by sucking in air from the outside;
a cooling unit 120 that lowers the temperature of the compressed air;
a dehumidifying unit 130 that lowers the humidity of the compressed air; and
A filter 140 for removing aerosols from the compressed air;
Aerosol measuring equipment, characterized in that it comprises.
According to claim 1,
The mixed air generator 400 generates mixed air (c) by mixing the dehumidified air (a) generated by the dehumidified air generator 100 and the natural air (b) provided by the natural air supply unit 200. ) Including more,
The mixed air generating unit 400 provides the mixed air (c) to the aerosol measuring unit 300. Aerosol measuring equipment, characterized in that.
According to claim 2,
The compressor 110 comprises a drain 112 for discharging moisture in the inner space 111 to the outside.
According to claim 3,
The cooling unit 120,
A vortex tube 121 receiving the compressed air, classifying low-temperature compressed air and high-temperature compressed air and discharging them respectively; and
A copper pipe 122 provided with a flow space through which the compressed air flows;
Aerosol measuring equipment, characterized in that it comprises.
According to claim 4,
The dehumidifying unit 130
A centrifugal water separator 131 for separating moisture from the compressed air by receiving the compressed air and rotating at high speed;
Aerosol measuring equipment, characterized in that it comprises.
According to claim 5,
The dehumidified air generator 100,
Further comprising a discharge unit 150 for discharging the dehumidified air (a) to the outside,
Aerosol measuring equipment characterized in that it comprises a; back pressure valve 151 for maintaining a constant flow rate of the discharged dehumidified air (a) in the discharge unit (150).
In the aerosol measurement method using the aerosol measurement equipment of claim 6,
A first step (S100) of generating the dehumidified air (a) using the dehumidified air generator 100;
a second step (S200) of generating the mixed air (c) by mixing the dehumidified air (a) and the natural air (b) using the mixed air generator 400; and
A third step (S300) of measuring the aerosol concentration in the mixed air (c) using the aerosol measuring unit 300;
Aerosol measurement method, characterized in that it comprises.

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