KR20180076667A - A sampling inlet device for fine particles from stack flue gases - Google Patents

Abstract

The present invention relates to a tube for collecting a fine dust sample from a chimney exhaust gas, and more particularly, to a tube for collecting a fine dust sample from a chimney exhaust gas, in which a size of an entire collecting tube is reduced, and convenience of collecting a chimney dust sample and accuracy of measurement are improved. To this end, the tube for collecting the fine dust sample from the chimney exhaust gas, which is used to collect the fine dust sample from the exhaust gas discharged through a chimney, includes: a first dust collection unit including a first inlet part through which a harmful gas in the chimney is introduced and a first outlet part through which the harmful gas is discharged; a second dust collection unit including a second inlet part through which the harmful gas discharged through the first outlet part of the first dust collection unit is introduced and a second outlet part through which the harmful gas is discharged, and having a diameter smaller than a diameter of the first dust collection unit; and a connection tube for connecting the first outlet part and the second inlet part.

Description

A sampling inlet device for fine particles from stack flue gases,

[0001] The present invention relates to a fine dust sampling pipe in a flue gas exhaust gas, and more particularly, to a flue gas collecting pipe for collecting minute dusts of various sizes from one sampling pipe through a plurality of dust collecting units using a cyclone dust collecting system The present invention relates to a fine dust sampling pipe in exhaust gas.

As the industry develops, environmental pollution becomes serious, and governments and international organizations, recognizing the seriousness of air pollution, present standards for emission of air pollutants and demand compliance with each country.

At this time, fine dust, which is one of the air pollutants, is a suspended particulate matter having various complex components and has a particle diameter of 10 μm (micrometer, 1 μm = 1 / 1,000 mm) ).

Most of them are emitted mainly from automobile exhaust gas or factory chimneys, and are dusts of small size that come out in China's yellow dust or severe smog.

In addition, fine dust particles smaller in size are called ultra fine dust particles and have a diameter of less than 2.5 μm and are referred to as PM2.5.

In many parts of the world, the fine dust level is strictly regulated. In Korea, the fine dust level existing in the air is strictly set and controlled.

On the other hand, various types of harmful substances harmful to the human body are contained in the exhaust gas in the incinerator, which burns fossil fuel and generates electricity by the thermal power plant and industrial waste or general household waste.

Among such harmful substances, the above-mentioned fine dust and ultrafine dust are absorbed by the human body, and when they are scaled up, they cause not only various diseases but also negative effects on the natural environment, and they are proved through various investigations and experiments .

In particular, ultrafine dust is much smaller than fine dust, so it can not be filtered from the airway, and it is much harmful because it penetrates most of the alveoli and causes heart disease and respiratory diseases.

In the case of incinerators and fossil fuels that use incinerators and fossil fuels all over the world, the emission of hazardous substances is regulated by law. In Korea, the Ministry of the Environment also limits emission of hazardous substances contained in exhaust gas have.

Meanwhile, the above-mentioned power plants and incinerators are provided with facilities for preventing harmful substances in order to reduce concentrations of harmful substances contained in exhaust gas.

In addition, an analyzer is installed for analyzing the components and concentrations of the harmful substances contained in the gas discharged through the harmful substance prevention facility at all times.

In general, the analyzer for analyzing the harmful substances contained in the exhaust gas is composed of a sampling system for sampling a part of the exhaust gas from a chimney and transferring the exhaust gas to an analyzer installed in a specific room analysis room, And in situ method for analyzing and installing the data.

Hereinafter, a conventional sampling device for sampling a stack exhaust gas for a sampling method will be briefly described.

A variety of apparatuses have been developed through a conventional technique and are disclosed in Korean Patent Registration No. 10-0637863.

1, a part of the exhaust gas 2 discharged through the chimney 1 is introduced into the flue gas sample inflow device through the sampling pipe 3 provided on one side of the chimney 1, ≪ / RTI >

Thereafter, the gas sample flowing into the sampling pipe 3 passes through the venturi 4 and is connected to the two measuring pipes 5 formed on both sides of the venturi 4 by the manometer 6, (5) is measured.

Thereafter, the Bernoulli theorem calculates the flow velocity as the value of the pressure difference, and as a result, the flow rate is calculated.

Since the gas sample is diluted by using the air around the discharge port, the temperature and the pressure of the gas sample are maintained in the atmospheric state around the discharge port, so that the discharge amount of particulate matter So that it can be captured more accurately.

However, the conventional sampling apparatus described above has the following problems.

Samples in the chimney are sampled through the sampling pipe (3) of the gas sample inflow device, and it is difficult to collect the samples within the chimney by dividing the particle size by the dust, so that it is difficult to increase the accuracy of the measurement of the pollutants generated from the chimney.

That is, since only the gas sample discharged along the channel of the chimney is simply collected, the accuracy of the sampling can be deteriorated. Since the method of collecting the fine dust and the ultrafine dust is not discriminated, There was a problem that it was difficult to increase the accuracy.

Korea Registration No. 10-063786

SUMMARY OF THE INVENTION It is an object of the present invention to provide a dust collecting apparatus and a dust collecting apparatus in which minute dust particles of various sizes can be separated and collected, In order to collect fine dusts of various sizes in one sampling pipe during sampling, it is intended to provide a fine dust sampling pipe among the stack exhaust gases.

It is another object of the present invention to provide a dust collecting sampling pipe in a chimney exhaust gas, which does not reduce the flow rate and flow rate of fine dust collected even if the size is reduced by simplifying the construction.

In order to achieve the above-mentioned object, a fine dust sampling pipe is provided in a chimney exhaust gas which is inserted into a chimney through a chimney insertion hole of a chimney and collects a fine dust sample from exhaust gas discharged through a chimney A first dust collecting portion having a first inlet portion through which harmful gas inside the chimney flows and a first outlet portion through which harmful gas is discharged; a first dust collecting portion having a first dust collecting portion and a second dust collecting portion, A second dust collecting part having a second inlet part and a second outlet part for discharging noxious gas and having a diameter smaller than a diameter of the first dust collecting part, a connection pipe connecting the first outlet part and the second inlet part, The first inlet portion and the first outlet portion are provided at one end of the first dust collecting portion and the noxious gas introduced through the first inlet portion is rotated in the cyclone manner at the other end portion of the first dust collecting portion, And the second inlet portion and the second outlet portion are provided at one end of the second dust collecting portion and the minute dust less than the PM10 introduced through the second inlet portion is supplied to the other end of the second dust collecting portion by a cyclone- And a second space for filtering the fine dust of PM2.5 or more and less than PM10 is formed on the bottom of the exhaust gas collecting pipe.

The first dust collecting part and the second dust collecting part are each formed of a hollow body having one end and the other end penetrated and a body including a channel whose diameter gradually decreases from one end to the other end, And an opening / closing cap which is detachably attached to one end of the opening and has a first outlet portion or a second outlet portion and is detachably attached to the other end portion of the body and opens or closes the first space or the second space .

At this time, the first outlet and the second outlet are preferably formed in the shape of a tube having a diameter smaller than that of the body.

Preferably, the second outlet of the second dust collector is further provided with a filter holder for filtering PM2.5 or less ultrafine dust that can not be trapped in the second space.

Preferably, the first space and the second space and the filter holder are provided with filter paper as means for collecting dust.

The fine dust sample collecting pipe among the chimney exhaust gas according to the present invention has the following effects.

First, by using the cyclone dust collection system, the structure can be simplified and the overall size can be reduced.

Accordingly, the size of the sampling pipe formed in the chimney can be reduced, and the insertion of the sampling pipe into the already formed sampling pipe is less influenced by the size.

Second, since a plurality of dust collecting units are provided in one sampling tube to collect minute dusts having various particle sizes at the same time, it is possible to improve the efficiency of sample collection and accuracy of dust measurement.

Third, by using the cyclone dust collecting method, even if the size of the sampling pipe is reduced, the dust collecting flow rate and the dust collecting flow rate are not reduced, so that the accuracy of dust measurement can be improved.

1 is a schematic view showing a state in which a chimney dust sample is collected using a sample collecting pipe according to the prior art;
FIG. 2 is a side view showing a fine dust sample collecting pipe in a chimney exhaust gas according to a preferred embodiment of the present invention.
FIG. 3 is an exploded perspective view showing a first dust collecting part constituting a fine dust sample collecting pipe in a chimney exhaust gas according to a preferred embodiment of the present invention. FIG.
FIG. 4 is an exploded cross-sectional view showing a first dust collecting part constituting a fine dust sample collecting pipe in a chimney exhaust gas according to a preferred embodiment of the present invention; FIG.
FIG. 5 is an exploded perspective view showing a second dust collecting part constituting a fine dust sample collecting pipe in a chimney exhaust gas according to a preferred embodiment of the present invention. FIG.
FIG. 6 is an exploded cross-sectional view illustrating a first dust collecting part constituting a fine dust sample collecting pipe among chimney exhaust gases according to a preferred embodiment of the present invention. FIG.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, a fine dust sampling pipe (hereinafter, referred to as a "sample sampling pipe") among the flue gas discharged according to a preferred embodiment of the present invention will be described with reference to FIGS. 2 to 6 attached hereto.

2, the sample collecting pipe includes a first dust collecting unit 100, a second dust collecting unit 200, a connecting unit 300, and a filter holder 400.

The first dust collecting part 100 constitutes one side of the sample collecting pipe, and noxious gas inside the chimney, that is, dust is initially introduced.

At this time, the first dust collecting part 100 has a structure in which dust particles having a relatively large PM10 particle size or more are firstly filtered, and dust collecting is performed by a cyclone method.

The first dust collector 100 includes a body 110, a first inlet 120, a first outlet 130, and an opening / closing cap 140.

The body 110 is in the form of a hollow through which one end and the other end of the body 110 are inserted.

One end of the body 110 constitutes a space through which dust inside the chimney is introduced and discharged. The other end of the body 110 forms a first space 111 through which dust of PM10 or more is collected through a cyclone system.

That is, the dust in the inside of the chimney is introduced into the one end of the body 110, and then discharged through the first space 111 and the one end of the body 110.

The duct between the one end of the body 110 and the other end of the body 110 is formed so that the diameter gradually decreases from one end of the body 110 to the other end of the body 110 .

In addition, threads are formed on the inner circumferential surface of the one end of the body 110 and the open end of the other end.

This is a configuration for screw connection of the first outlet rod and the opening / closing cap 140 described below.

The first inlet 120 is a part where the dust inside the chimney first flows into the sample collecting pipe, and is formed at one end of the body 110.

The first inlet 120 is provided on the outer peripheral surface of one end of the body 110 and includes an inlet nozzle 121.

The inlet nozzle 121 is screwed to the nozzle hole 120a formed at one end of the body 110 so that the inlet nozzle 121 protrudes outward from one end of the body 110 Respectively.

Since the inlet nozzle 121 is installed on the outer peripheral surface of the one end of the body 110, the dust introduced through the inlet nozzle 121 is rotated along the inner peripheral surface of the one end of the body 110 while maintaining the flow velocity, (110).

The first outlet portion 130 provides a conduit through which the fine dust less than the PM 10 remaining after being filtered by the first dust collecting portion 100 is discharged to the second dust collecting portion 200, Respectively.

The first outlet portion 130 is formed in the shape of a tube and is installed to pass through the inside and outside of the first end portion of the body 110.

At this time, the inner diameter of the first outlet portion 130 is smaller than the inner diameter of one end of the body 110 and the inner diameter of the other end portion.

The first outlet portion 130 is installed at one end of the body through an outlet cap 131, as shown in FIG.

The outlet cap is referred to as a first outlet cap 131 for convenience.

The first outlet cap 131 shields the opened end of the body 110 and the first outlet cap 130 passes through the center of the first outlet cap 131.

A thread is formed on the outer circumferential surface of the first outlet cap 131 so that the first outlet cap 131 can be screwed to one end of the body 110.

The opening and closing cap 140 shields the other open end of the body 110.

A screw thread is formed on the outer peripheral surface of the opening / closing cap 140 so as to be screwed to the other end of the body 110.

As described above, the opening and closing cap 140 is detachably attached to the other end of the body 110, so that the cleaning operation can be easily performed by opening the other end of the body 110, It is possible to easily remove the PM10 or more dust collected in the first space 111 constituting the other end portion.

Meanwhile, the first dust collecting unit 100 is configured to collect dust of PM10 or more among chimney dusts. In the first space 111, a filter paper F for collecting dust of PM10 or more is provided.

At this time, the filter paper (F) is preferably a PTFE filter.

Next, the second dust collecting unit 200 constitutes the other side of the sample collecting pipe, and collects the remaining dust that is filtered by the first dust collecting unit 100.

To be precise, the second dust collecting part 200 collects minute dust less than PM2.5 and less than PM10 in the chimney dust.

The inner diameter of the second dust collecting part 200 is smaller than the inner diameter of the first dust collecting part 100 and includes a body 210, a second inlet part 220, a second outlet part 230, (240).

The body 210 has a hollow shape through which one end and the other end of the body 210 are inserted.

One end of the body 210 constitutes a space in which fine dust of less than PM2.5 and less than PM10 is filtered and the remaining dust is discharged, and the other end of the body 210 is connected to a fine Thereby forming a second space 211 in which dust is collected.

The dust discharged from the first outlet part 130 of the first dust collecting part 100 flows into one end of the body 210 and then flows through the second space 211 into the body 210, It is discharged through a portion.

In addition, threads are formed on one end of the body 210 and on the inner circumferential surface of the other open end.

This is a configuration for screw coupling of the second outlet tongue and the opening / closing cap 240 described later.

The second inlet part 220 is a part where the dust less than the PM 10 discharged from the first dust collecting part 100 flows into the inside of the body 210 of the second dust collecting part 200, .

The second inlet portion 220 is provided in the form of a through hole on the outer peripheral surface of one end of the body 210.

The second inlet 220 is installed on the outer circumferential surface of the one end of the body 210 of the second dust collector 200 so that the dust introduced through the second inlet 220 flows through one end of the body 210, And is then moved to the other end of the body 210 after being rotated along the inner circumferential surface.

The second outlet portion 230 provides a conduit through which the remaining dust of PM2.5 or less that is filtered by the second dust collecting portion 200 is discharged to the outside of the body 210 of the second dust collecting portion 200, As shown in Fig.

The second outlet portion 230 is also formed in the shape of a tube and is installed to pass through the inside and the outside of the one end of the body 210.

At this time, the inner diameter of the second outlet portion 230 is smaller than the inner diameter of the one end portion and the other end portion of the body 210 of the second dust collecting portion 200.

Meanwhile, the second outlet portion 230 is installed at one end of the body 210 through an outlet cap (hereinafter, referred to as a 'second outlet cap').

The second outlet cap 231 shields the opened end of the body 210 and the second outlet cap 230 passes through the center of the second outlet cap 231.

The outer surface of the second outlet cap 231 is threaded so that the second outlet cap 231 can be screwed to one end of the body 210.

The opening and closing cap 240 is configured to shield the other end portion of the body 210 that is opened.

A screw thread is formed on the outer peripheral surface of the opening / closing cap 240 so as to be screwed to the other end of the body 210.

As described above, the opening / closing cap 240 can be attached to and detached from the other end of the body 210, so that the cleaning operation can be easily performed by opening the other end of the body 210, It is possible to easily remove minute dust less than PM10 and less than PM10 collected in the second space 211 constituting the other end portion.

Meanwhile, the second dust collecting unit 200 is configured to collect fine dusts of PM 2.5 and less than PM 10 out of the chimney dust, and in the second space 211, A filter paper F for dust collection is provided.

At this time, the filter paper (F) is preferably a PTFE filter.

The connection pipe 300 connects the first dust collector 100 and the second dust collector 200 and connects the first outlet 130 of the first dust collector 100 and the second outlet 230 of the second dust collector 200, And is installed between the inlet portions 220.

At this time, the inner diameter of the connection pipe 300 preferably corresponds to the inner diameters of the first outlet portion 130 and the second inlet portion 220 so that the flow velocity and the flow rate of the dust can be maintained.

Next, the filter holder 400 is configured to filter ultrafine dusts having particles of PM2.5 or less that are filtered through the second dust collecting part 200, and the second outlet part 230 of the second dust collecting part 200 ).

That is, the filter holder 400 is configured to filter ultrafine dusts of PM 2.5 or less filtered by the second dust collector 200.

Hereinafter, a chimney dust sample collection process using the sample collection pipe having the above-described configuration will be described.

A sample collecting tube including a first dust collecting part 100 and a second dust collecting part 200 is formed on a chimney in a state where a supporting bar (not shown) is installed on one side of the filter holder 400, Put it into the sampling pipe.

At this time, the dust scattered through the chimney flows into the first dust collecting unit 100 through the inlet nozzle 121 installed in the first dust collecting unit 100 of the sample collecting pipe.

4, the dust is rotated along the inner circumferential surface of one end of the body 110 of the first dust collecting unit 100 and then moved to the other end of the body 110 by the centrifugal force.

At this time, the dust having a large particle size of PM10 or more is adsorbed on the filter paper provided in the first space 111 of the body 110, and the fine dust less than PM10 is changed in direction to move the body 110 through the first outlet portion 130, As shown in Fig.

Thereafter, fine dust of less than PM10 flows into the second dust collecting part 200 along the connection pipe 300.

6, the fine dust is rotated along the inner circumferential surface of one end of the body 210 of the second dust collecting unit 200 and then moved to the other end of the body 210 by centrifugal force.

At this time, the fine dust having a PM of more than 2.5 and less than PM10 is adsorbed on the filter paper F provided in the second space 211 of the body 210, and the ultrafine dust of PM2.5 or less is changed in direction, And is discharged out of the one end of the body 210 through the opening 230.

Thereafter, the ultrafine dusts of PM2.5 or less discharged through the second outlet portion 230 are collected in the filter holder 400.

On the other hand, if it is determined that the dust collector has been sufficiently collected from the chimney after a predetermined time, the sampler is taken out of the chimney.

Next, the opening and closing caps 140 and 240 of the first dust collecting unit 100 and the second dust collecting unit 200 are rotated and separated from the respective bodies 110 and 210.

At this time, the first space 111 and the second space 211 of the bodies 110 and 210 are opened to the outside, and the sample collector is provided with the filter paper F disposed in the first space 111 and the second space 211 Pull it out and use it as a sample for analysis.

Thereafter, a series of analysis processes are carried out through the collected dust samples.

As described above, according to the present invention, the fine dust sample collecting pipe of the chimney exhaust gas collecting dust of PM10 or more, fine dust of less than PM2.5 and PM10 or less, ultrafine PM2.5 or less There is a technical feature that makes it possible to collect dust at the same time.

That is, the cyclone dust collecting system can be applied to simplify the structure and reduce the entire size, so that two dust collecting units of one sampling pipe can be constructed.

Accordingly, it is possible to enhance the convenience of collecting the chimney dust sample and improve the accuracy of the sample measurement.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

100: first dust collector 110, 210: body
111: first space 120: first inlet part
120a: nozzle hole 121: inlet nozzle
130: first outlet portion 131: first outlet cap
140, 240: opening / closing cap 200:
211: second space 220: second inlet part
230: second outlet portion 231: second outlet cap
300: connection part 400: filter holder
F: filter paper

Claims (5)

A fine dust sampling pipe is provided in the flue gas exhausted from the exhaust gas discharged through the chimney by inserting the chimney into the inside of the chimney through the intake pipe of the chimney,
A first dust collector having a first inlet through which harmful gas inside the chimney flows and a first outlet through which harmful gas is discharged;
A second inlet portion through which the noxious gas discharged through the first outlet portion of the first dust collecting portion flows and a second outlet portion through which noxious gas is discharged, the second dust collecting portion having a diameter smaller than the diameter of the first dust collecting portion;
A connection pipe connecting the first outlet portion and the second inlet portion;
The first inlet portion and the first outlet portion are provided at one end of the first dust collecting portion and the noxious gas introduced through the first inlet portion is rotated in the cyclone manner at the other end portion of the first dust collecting portion, The first space is formed,
The second inlet portion and the second outlet portion are provided at one end of the second dust collecting portion and the minute dust less than the PM10 flowing through the second inlet portion is rotated in the cyclone manner at the other end portion of the second dust collecting portion, And a second space through which fine dust is filtered through the second dust collecting pipe. The method according to claim 1,
The first dust collecting part and the second dust collecting part may respectively include:
A body including a channel formed in a hollow through one end and the other end and having a diameter gradually narrower from one end to the other end;
An outlet cap which is detachably attached to an open end of the body and has a first outlet portion or a second outlet portion;
And an opening / closing cap detachably attached to the other open end of the body for opening / closing the first space or the second space. 3. The method of claim 2,
Wherein the first outlet portion and the second outlet portion are formed in the shape of a tube having a diameter smaller than that of the body duct. 4. The method according to any one of claims 1 to 3,
And a filter holder for filtering ultrafine dusts of PM2.5 or less that is not filtered by the second space is installed in the second outlet portion of the second dust collecting portion. 5. The method of claim 4,
Wherein the first space, the second space, and the filter hole are provided with filter paper as means for collecting dust.

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