KR20220124994A - Cleaning system for gas sample bag - Google Patents

Abstract

The present invention relates to a cleaning device for a gas sample bag which can effectively clean a sample bag and prevent damage to the sample bag by optimizing pump operating conditions when gas is discharged and injecting an optimal amount of gas in accordance with the volume of the sample bag when cleaning gas sample bags. According to the present invention, the cleaning device for a gas sample bag comprises: a gas pipe capable of supplying and discharging cleaning gas; one or more branch pipes provided on one side of the gas pipe in a form of branching from the gas pipe; gas sample bags connected to the branch pipes; a flow control device provided on the inlet side of the gas pipe to measure the actual flow of the cleaning gas supplied to the gas pipe to transfer the flow of the cleaning gas to a control device; a gas discharge pump provided on the outlet side of the gas pipe to discharge the cleaning gas injected into the gas sample bags out of the gas pipe; a sample bag opening/closing valve provided on the branch pipes to selectively open and block the gas sample bags; a gas pipe opening/closing valve provided on the front end of the gas discharge pump on the outlet side of the gas pipe to selectively open and block the gas pipe; and a control device controlling the flow of the cleaning gas injected into the gas sample bags based on design flow information and controlling the flow of the cleaning gas discharged from the gas sample bags based on discharge flow information.

Description

Gas sample bag cleaning device {Cleaning system for gas sample bag}

The present invention relates to an apparatus for cleaning a gas sample bag, and more particularly, to a gas sample bag cleaning apparatus, by injecting an optimal amount of gas according to the volume of the sample bag and optimizing the pump operation condition when the gas is discharged. It relates to a gas sample bag cleaning apparatus capable of preventing damage to the sample bag while cleaning.

The gaseous substances that cause air pollution include nitrogen oxides (NO _x ), sulfur oxides (SO _x ), carbon monoxide (CO), ozone (O ₃ ), and volatile organic compounds (VOCs). Since these gaseous substances are generated from various indoor and outdoor pollutants and directly affect the human body and the air environment, accurate analysis is required.

According to the Air Pollution Process Test Standards of the Ministry of Environment of the Republic of Korea, in the case of VOCs, samples can be collected using the adsorption tube method or the Teddlar bag method. The adsorption tube method is a method of adsorbing VOCs using a tube filled with an adsorbent and then analyzing it through thermal desorption-gas chromatography. Beyond that, it is difficult to accurately analyze. On the other hand, the Tedlar bag method is a method of collecting the entire gas sample containing VOCs using a sample bag called Tedla bag, so the sampling conditions are less difficult. However, in order to increase the reliability of analysis, cleaning of the sample bag is essential. If the background concentration of the sample bag is above a certain level, such as contaminants in the sample bag itself or contaminants generated from seams, etc., it is impossible to accurately measure the concentration of contaminants in the gas collected in the sample bag.

In the Tedlar bag method, the cleaning of the sample bag uses a gas injection and exhaust method. That is, the sample bag can be cleaned by repeating the process of injecting and discharging nitrogen or high-purity air into the sample bag. In such a sample bag cleaning method, the amount of gas injected into the sample bag and conditions for discharging the gas from the sample bag using a pump should be optimized to clean the sample bag and prevent damage to the sample bag. If more gas than necessary is injected into the sample bag or the pump is operated more than necessary when gas is discharged, the sample bag is damaged.

In the conventional case, when cleaning the sample bag, the gas injection flow rate, gas injection time, and pump operation conditions are set by humans. A problem is occurring.

Zun Man, Xiaorong Dai, Li Rong, Xianwang Kong, Shihao Ying, Yicong Xin, Dezhao Liu, Evaluation of storage bags for odour sampling from intensive pig production measured by protontransfer-reaction mass-spectrometry (published 27 November 2019).

The present invention has been devised to solve the above problems, and in cleaning the gas sample bag, an optimal amount of gas is injected according to the volume of the sample bag and the pump operating condition is optimized when the gas is discharged, thereby effectively cleaning the sample bag. It is an object of the present invention to provide a gas sample bag cleaning device capable of preventing the sample bag from being damaged.

A gas sample bag cleaning apparatus according to the present invention for achieving the above object includes: a gas pipe capable of supplying and discharging cleaning gas; one or a plurality of branch pipes provided on one side of the gas pipe in a branched form from the gas pipe; a gas sample bag connected to each branch pipe; a flow control device provided at the inlet side of the gas pipe to measure the actual flow rate of the cleaning gas supplied to the gas pipe and deliver it to the control device; a gas discharge pump provided at the outlet side of the gas pipe to discharge the cleaning gas injected into the gas sample bag to the outside of the gas pipe; a sample bag opening/closing valve provided in the branch pipe to selectively open and shut off the gas sample bag; a gas pipe opening/closing valve provided at the front end of the gas discharge pump at the outlet side of the gas pipe to selectively open and block the gas pipe; and a control device for controlling the flow rate of the cleaning gas injected into the gas sample bag based on the design flow rate information and controlling the flow rate of the cleaning gas discharged from the gas sample bag based on the discharge flow rate information. characterized in that

When the cleaning gas is supplied to the gas pipe, the flow control device measures the actual flow rate of the cleaning gas supplied to the gas pipe and transmits it to the control device, and the control device determines the design flow rate and flow rate control device set in the design flow information Prepare the actual flow rate input from the , and if the difference between the actual flow rate and the design flow rate is within the preset error range, the sample bag is opened through the sample bag opening/closing valve to inject cleaning gas into the sample bag.

When the supply time of the cleaning gas meets the supply time set in the design flow rate information, the control device controls the flow control device to block the supply of the cleaning gas to the gas pipe.

The design flow information means a flow rate of cleaning gas to be injected into a gas sample bag connected to a branch pipe of a gas pipe, and the design flow information includes a flow rate and supply time of cleaning gas supplied to the gas pipe.

The design flow rate information is calculated based on the volume information of the gas sample bag. In calculating the design flow information based on the volume information of the sample bag, the design flow information may include a flow rate corresponding to the volume of the gas pipe and the branch pipe.

In a state in which the cleaning gas is injected into the gas sample bag, the control device opens the gas pipe opening/closing valve and operates the gas discharge pump, and the cleaning gas injected into the gas sample bag connects the branch pipe and the gas pipe. and is discharged through the gas discharge pump, and the gas discharge pump is operated according to the discharge flow rate and operation time of the gas discharge pump set in the discharge flow rate information.

When the operation time of the gas discharge pump set in the discharge flow rate information is completed, the control device blocks the gas pipe opening/closing valve and stops the operation of the gas discharge pump.

The discharge flow rate and operating time of the gas discharge pump of the discharge flow rate information are calculated based on the volume information of the gas sample bag. In calculating the discharge flow information based on the volume information of the sample bag, the flow rate corresponding to the volume of the gas pipe and the branch pipe may be included in the discharge flow information.

The supply of the cleaning gas based on the design flow rate information and the discharge of the cleaning gas based on the discharge flow rate information are repeatedly performed a plurality of times under the control of the control device. The bag is cleaned.

The sample bag opening/closing valve and the gas pipe opening/closing valve may be configured as a solenoid valve. In addition, the design flow rate information can be set according to the number of gas sample bags.

The gas sample bag cleaning apparatus according to the present invention has the following effects.

By controlling the optimum amount of cleaning gas to be injected into the gas sample bag and optimizing the operating conditions of the gas discharge pump, the gas sample bag can be cleaned effectively, and the gas sample bag cannot be damaged during the injection and discharge process of the cleaning gas. risk can be avoided.

1 is a block diagram of a gas sample bag cleaning apparatus according to an embodiment of the present invention;
Figure 2 is a block diagram for explaining the interlocking relationship between the control device and each component.
3 is a flowchart for explaining a gas sample bag cleaning method according to an embodiment of the present invention.
4A is a reference diagram for explaining a process of supplying a cleaning gas;
4B is a reference diagram for explaining a process of discharging a cleaning gas;
5 is a photograph of a gas sample bag cleaning apparatus manufactured according to an embodiment of the present invention.
6 is a reference view showing a control system screen of the gas sample bag cleaning apparatus manufactured according to an embodiment of the present invention.
7 is a result of measuring the concentration of contaminants before and after cleaning for a gas sample bag.

The present invention provides a technique for an apparatus capable of automatically cleaning more than one gas sample bag at the same time.

As mentioned in the 'technology behind the invention', the gas sample bag that collects gaseous contaminants must be cleaned for analysis reliability for gaseous contaminants. In addition, when cleaning the gas sample bag using gas, an appropriate amount of gas must be injected into the sample bag for the cleaning effect of the sample bag, and an appropriate amount of gas must be injected into the sample bag to prevent damage to the sample bag. When gas is discharged, the operating conditions of the pump should be optimized.

The present invention provides a technique for securing the cleaning reliability of a gas sample bag and preventing damage to the sample bag by optimizing the pump operating conditions when gas is discharged while allowing an optimal amount of gas to be injected into the sample bag.

Hereinafter, a gas sample bag cleaning apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 and 2 , the gas sample bag cleaning apparatus according to an embodiment of the present invention includes a gas pipe 110 , a flow rate controller 140 , a gas discharge pump 150 , and a sample bag opening/closing valve 121 . , including a gas pipe opening/closing valve 111 and a control device 10 .

The gas pipe 110 serves to supply a cleaning gas to the gas sample bag 130 or to discharge the cleaning gas injected into the gas sample bag 130 . One or a plurality of branch pipes 120 branching from the gas pipe 110 are provided on one side of the gas pipe 110 , and a gas sample bag 130 is provided at the end of the branch pipe 120 . Therefore, the cleaning gas supplied to the gas pipe 110 is injected into the gas sample bag 130 through the gas pipe 110 and the branch pipe 120 , and the cleaning gas injected into the gas sample bag 130 is It may be discharged through the branch pipe 120 and the gas pipe 110 .

The gas pipe 110 has an inlet side and an outlet side, a flow control device 140 is provided at the inlet side, and a gas discharge pump 150 is provided at the outlet side. The flow control device 140 controls the flow rate of the cleaning gas supplied to the inlet side of the gas pipe 110 , and the gas discharge pump 150 converts the cleaning gas injected into the gas sample bag 130 into the gas. It serves to discharge the pipe 110 to the outside. Here, the cleaning gas is supplied from the cleaning gas supply device.

The flow control device 140 measures the flow rate of the cleaning gas supplied through the inlet side of the gas pipe 110 in real time, and transmits the actual flow rate information to the control device 10, and the flow control device 140 And the operation of the gas discharge pump 150 is controlled by the control device. Detailed functions of the control device 10 will be described later in detail.

The sample bag opening/closing valve 121 is provided in the branch pipe 120 to selectively open and close the branch pipe 120 , and the sample bag 130 is opened or closed according to the operation of the sample bag opening/closing valve 121 . is blocked The gas pipe opening/closing valve 111 is provided at the front end of the gas discharge pump 150 at the outlet side of the gas pipe 110 to selectively open and close the gas pipe 110, and Depending on the operation, the outlet side of the gas pipe 110 is opened or blocked.

The opening/closing operation of the sample bag opening/closing valve 121 and the opening/closing operation of the gas pipe opening/closing valve 111 are controlled by the control device 10, and the sample bag opening/closing valve 121 and the gas pipe opening/closing valve 111 are In one embodiment, it may be configured using a solenoid valve.

The control device 10 controls each operation of the flow control device 140, the gas discharge pump 150, the sample bag opening/closing valve 121, and the gas pipe opening/closing valve 111 on the basis of the control logic to control the gas pipe ( The supply of the cleaning gas to 110 and the discharge of the cleaning gas from the gas pipe 110 are controlled.

Specifically, the control device 10 supplies the cleaning gas to the gas pipe 110 according to the design flow rate information set in the control logic. The design flow information means the flow rate of the cleaning gas to be injected into the sample bag 130 , and this design flow information is calculated based on the volume information of the sample bag 130 and cleaning supplied to the gas pipe 110 . The flow rate and supply time of the solvent gas are included. That is, the flow rate and supply time of the cleaning gas supplied to the gas pipe 110 are predetermined according to the design flow rate information of the cleaning gas to be injected into the sample bag 130 , and this design flow rate information is the sample bag 130 . ) is calculated based on the volume information. At this time, considering that a certain flow rate remains in the gas pipe 110 and the branch pipe 120 in addition to the flow rate filled in the gas sample bag 130 , the design flow rate information includes the volume of the gas sample bag 130 , the gas It is preferable to calculate based on the volume of the pipe 110 and the volume of the branch pipe 120 . For example, in calculating the design flow information based on the volume information of the sample bag 130 , flow rates corresponding to the volumes of the gas pipe 110 and the branch pipe 120 may be included in the design flow information.

In addition, the control device 10 compares the design flow information and the actual flow information input from the flow control device 140. If the difference between the actual flow rate and the design flow rate is within a preset error range, for example, 5%, the sample The sample bag 130 is opened through the bag opening/closing valve 121 to inject the cleaning gas into the sample bag 130, and at this time, the gas pipe opening/closing valve 111 is in a closed state.

In addition, when the supply time of the cleaning gas supplied to the gas pipe 110 satisfies the supply time set in the design flow information, the control device 10 controls the flow control device 140 to control the gas pipe 110 . The supply of cleaning gas to the furnace is cut off, and the outlet side of the gas pipe 110 is opened through the gas pipe opening/closing valve 111, and the gas discharge pump 150 is operated. In a state in which the supply of the cleaning gas to the inlet side of the gas pipe 110 is blocked, the outlet side of the gas pipe 110 is opened and the cleaning gas injected into the sample bag 130 as the gas discharge pump 150 is operated. It is discharged to the outside of the gas pipe 110 through the branch pipe 120 and the gas pipe 110 .

At this time, the gas discharge pump 150 is operated according to the discharge flow rate information set in the control logic. The discharge flow rate information includes the discharge flow rate and operation time of the gas discharge pump 150 , and the discharge flow rate information is calculated based on the volume information of the sample bag 130 , like the design flow rate information. In addition, as a certain amount of cleaning gas remains in the gas pipe 110 and the branch pipe 120 as well as the gas sample bag 130 , the discharge flow rate information is the volume of the gas sample bag 130 and the volume of the gas pipe 110 . It is preferably calculated based on the volume and the volume of the branch pipe 120 . For example, in calculating the discharge flow rate information based on the volume information of the sample bag 130 , flow rates corresponding to the volumes of the gas pipe 110 and the branch pipe 120 may be included in the discharge flow rate information.

When the operation time of the gas discharge pump 150 satisfies the operation time set in the discharge flow rate information, the control device 10 connects the branch pipe 120 and the Block all the outlet sides of the gas pipe 110 .

Also, the control device 10 may repeat a series of processes from the supply of the cleaning gas to the discharge of the gas to the sample bag 130 as described above multiple times based on the control logic.

Above, a gas sample bag cleaning apparatus according to an embodiment of the present invention has been described. Next, a gas sample bag cleaning method according to an embodiment of the present invention will be described with reference to FIGS. 3 and 4A and 4B .

First, in a state in which one or a plurality of branch pipes 120 are provided in the gas pipe 110 and the gas sample bag 130 is connected to each branch pipe 120 , the flow control device is located at the inlet side of the gas pipe 110 . 140 is provided, and a gas discharge pump 150 is provided at the outlet side of the gas pipe 110 . In addition, each branch pipe 120 is provided with a sample bag opening/closing valve 121 , and a gas pipe opening/closing valve 111 is provided at the front end of the gas discharge pump 150 at the outlet side of the gas pipe 110 . At the same time, the design flow rate information and the discharge flow rate information are stored in advance in the control device 10 (S301).

The design flow information means the flow rate of the cleaning gas to be injected into the gas sample bag 130 connected to the branch pipe 120 of the gas pipe 110 . The design flow information includes the flow rate and supply time of the cleaning gas supplied to the gas pipe 110 , and the design flow information is calculated based on the volume information of the sample bag 130 . At this time, the cleaning gas is injected into the sample bag 130 through the gas pipe 110 and the branch pipe 120 , and when the injection of the cleaning gas into the sample bag 130 is completed, the gas pipe opening/closing valve 111 . In consideration of the fact that a certain amount of cleaning gas remains in the gas pipe 110 and the branch pipe 120 due to blocking to include a flow rate corresponding to the volume of the gas pipe 110 and the branch pipe 120 .

Also, the design flow rate information may be set according to the number of gas sample bags 130 . That is, it is possible to selectively calculate the design flow rate information according to the number of gas sample bags 130 during the cleaning process. For example, the design flow rate information may be set differently for each of the cleaning process for the two sample bags 130 and the cleaning process for the four sample bags 130 . In addition, discharge flow rate information, which will be described later, may also be set according to the number of gas sample bags 130 like design flow rate information.

Based on the design flow rate information, the control device 10 controls the operation of the flow control device 140 . That is, when the supply time of the cleaning gas supplied to the gas pipe 110 through the flow control device 140 satisfies the supply time set in the design flow information, the flow control device 140 is controlled by the control device 10 . The supply of cleaning gas to the gas pipe 110 is cut off.

The discharge flow rate information is for controlling the operation of the gas discharge pump 150 and includes the discharge flow rate and operation time of the gas discharge pump 150 . That is, the gas discharge pump 150 is operated according to the discharge flow rate and operation time of the gas discharge pump 150 included in the discharge flow rate information. The discharge flow rate and operating time of the gas discharge pump 150 of the discharge flow information are calculated based on the volume information of the sample bag 130 in the same way as the design flow information, and the gas pipe 110 and the branch pipe ( 120) may include a flow rate corresponding to the volume.

In this way, in the state in which the design flow rate information and the discharge flow rate information are previously stored in the control device 10 ( S301 ), the supply process of the cleaning gas proceeds as follows.

As shown in Fig. 4a, when the cleaning gas of the cleaning gas supply device is supplied to the gas pipe 110 (S302), the flow control device 140 provided on the inlet side of the gas pipe 110 is connected to the gas pipe ( The actual flow information supplied to 110) is measured in real time and transmitted to the control device 10 . For example, the flow control device 140 may measure the actual flow rate every 0.1 seconds and transmit it to the control device 10 .

The control device 10 compares the design flow information and the actual flow information input from the flow control device 140, and when the difference between the actual flow rate and the design flow rate is within a preset error range, for example, 5%, the sample bag opening/closing valve The sample bag 130 is opened through step 121 to inject the cleaning gas into the sample bag 130 (S303) (S304). At this time, the gas pipe opening/closing valve 111 forms a blocked state. Here, the error range between the actual flow rate and the design flow rate can be arbitrarily set.

In addition, when the supply time of the cleaning gas meets the supply time set in the design flow information, the control device 10 controls the flow control device 140 to block the supply of the cleaning gas to the gas pipe 110 (S305). ).

In a state in which the cleaning gas is injected into the gas sample bag 130 , the discharge process of the cleaning gas proceeds as follows.

To discharge the cleaning gas, the control device 10 opens the gas pipe opening/closing valve 111 and operates the gas discharge pump 150 . The cleaning gas injected into the gas sample bag 130 by the operation of the gas discharge pump 150 is discharged through the gas discharge pump 150 through the branch pipe 120 and the gas pipe 110 (S306) (See Fig. 4b).

At this time, the gas discharge pump 150 is operated based on the discharge flow rate information under the control of the control device 10 . That is, the gas discharge pump 150 is operated according to the discharge flow rate and operation time of the gas discharge pump 150 set in the discharge flow rate information, and through this, the cleaning gas injected into the gas sample bag 130 is discharged. . When the operation time of the gas discharge pump 150 set in the discharge flow rate information is completed, the control device 10 blocks the gas pipe opening/closing valve 111 and stops the operation of the gas discharge pump 150 (S307).

The cleaning of the gas sample bag 130 is completed through the process of supplying the cleaning gas and the process of discharging the cleaning gas as described above. can be repeated.

7 is a result of measuring the concentration of contaminants before and after cleaning the gas sample bag. Before and after cleaning, each gas sample bag was filled with high-purity air and connected to a proton transfer mass spectrometer to measure the contaminant concentration. The cleaning of the gas sample bag was applied by repeating the cleaning process according to an embodiment of the present invention, that is, the process of supplying the gas for cleaning and the process of discharging the gas for cleaning five times. As a result of the experiment, it was confirmed that ethanol was reduced by 62.11% and acetone by 56.52% after washing. Here, FIG. 5 is a photograph showing a gas sample bag cleaning apparatus manufactured according to an embodiment of the present invention, and FIG. 6 is a reference showing a control system screen of a gas sample bag cleaning apparatus manufactured according to an embodiment of the present invention it is do

10: control device 110: gas pipe
111: gas pipe opening/closing valve 120: branch pipe
121: sample bag on/off valve 130: gas sample bag
140: flow control device 150: gas discharge pump

Claims (13)

Gas piping capable of supplying and discharging cleaning gas;
one or a plurality of branch pipes provided on one side of the gas pipe in a branched form from the gas pipe;
a gas sample bag connected to each branch pipe;
a flow control device provided on the inlet side of the gas pipe to measure the actual flow rate of the cleaning gas supplied to the gas pipe and deliver it to the control device;
a gas discharge pump provided at the outlet side of the gas pipe to discharge the cleaning gas injected into the gas sample bag to the outside of the gas pipe;
a sample bag opening/closing valve provided in the branch pipe to selectively open and shut off the gas sample bag;
a gas pipe opening/closing valve provided at the front end of the gas discharge pump at the outlet side of the gas pipe to selectively open and block the gas pipe; and
A control device for controlling the flow rate of the cleaning gas injected into the gas sample bag based on the design flow rate information and controlling the flow rate of the cleaning gas discharged from the gas sample bag based on the discharge flow rate information; Gas sample bag cleaning device, characterized in that.
The method of claim 1, wherein when the cleaning gas is supplied to the gas pipe, the flow control device measures the actual flow rate of the cleaning gas supplied to the gas pipe and transmits it to the control device,
The control device compares the design flow set in the design flow information with the actual flow input from the flow control device, and opens the sample bag through the sample bag opening/closing valve when the difference between the actual flow and the design flow rate is within a preset error range. Gas sample bag cleaning apparatus, characterized in that the cleaning gas is injected into the sample bag.
The gas sample according to claim 2, wherein the control device blocks the supply of the cleaning gas to the gas pipe by controlling the flow control device when the supply time of the cleaning gas meets the supply time set in the design flow rate information. bag cleaning device.
According to claim 1, wherein the design flow information means a flow rate of the cleaning gas to be injected into the gas sample bag connected to the branch pipe of the gas pipe, the flow rate and supply of the cleaning gas supplied to the gas pipe in the design flow information Gas sample bag cleaning device, characterized in that the time is included.
The gas sample bag cleaning apparatus according to claim 1, wherein the design flow rate information is calculated based on volume information of the gas sample bag.
[Claim 6] The gas sample bag cleaning apparatus according to claim 5, wherein in calculating the design flow information based on the volume information of the sample bag, flow rates corresponding to the volumes of the gas pipe and the branch pipe are included in the design flow information.
According to claim 1, In a state in which the cleaning gas is injected into the gas sample bag, the control device opens the gas pipe opening/closing valve and operates the gas discharge pump, and the cleaning gas injected into the gas sample bag is It is discharged through the gas discharge pump through the branch pipe and gas pipe.
Gas sample bag cleaning apparatus, characterized in that the gas discharge pump is operated according to the discharge flow rate and operating time of the gas discharge pump set in the discharge flow rate information.
8. The gas sample bag cleaning apparatus according to claim 7, wherein, when the operation time of the gas discharge pump set in the discharge flow rate information is completed, the control device blocks the gas pipe opening/closing valve and stops the operation of the gas discharge pump. .
The gas sample bag cleaning apparatus according to claim 1, wherein the gas discharge pump discharge flow rate and operation time of the discharge flow rate information are calculated based on the volume information of the gas sample bag.
10. The gas sample bag cleaning apparatus according to claim 9, wherein in calculating the discharge flow rate information based on the volume information of the sample bag, flow rates corresponding to the volumes of the gas pipe and the branch pipe are included in the discharge flow rate information.
The cleaning gas supply and cleaning gas supply and cleaning gas according to claim 1, wherein the supply of the cleaning gas based on the design flow rate information and the discharge of the cleaning gas based on the discharge flow rate information are repeatedly performed a plurality of times under the control of the control device. Gas sample bag cleaning apparatus, characterized in that the gas sample bag is cleaned by the discharge of
The gas sample bag cleaning apparatus according to claim 1, wherein the sample bag opening/closing valve and the gas pipe opening/closing valve are configured as solenoid valves.
The gas sample bag cleaning apparatus according to claim 1, wherein the design flow rate information is set according to the number of gas sample bags.

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