KR100583586B1 - Sample gas multi-trap apparatus with a adsorbent trap for a odor and voc - Google Patents

Abstract

The present invention relates to a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds, and has a multi-stage adsorption member provided in series with each other in order to increase the concentration of the sample, and according to the adsorption and desorption mode situation, It is an object of the present invention to provide a multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds, which can easily increase the concentration of a target gas by repeating easy adsorption / desorption by the number of the corresponding adsorption members by driving a general pump.

According to the present invention, a cotton yarn layer is provided inside the glass tube into which the air is sucked, and a Peltier trap for absorbing / heating is provided under the power supply to repeat adsorption and desorption to increase the concentration of the introduced sample. Adsorption / desorption part; It is connected to the rear end of the adsorption / desorption section in series, and is provided with a glass tube for transporting the air sucked into the inside, and controls the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube. Peltier trap is provided in the glass tube, and the low concentration adsorption / desorption unit is provided with adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air transported. It is characterized by concentrating the sample of fine concentration through the multi-stage adsorption / desorption device provided in the middle of the series line.

According to the present invention, a plurality of switching valves and syringe pumps and a plurality of adsorption traps are used to repeatedly adsorb / desorb fine concentrations of gas to concentrate high concentrations of odorous substances and volatile organic compounds. There is an advantage that can be done, through which accurate analysis of the sample.

Description

SAMPLE GAS MULTI-TRAP APPARATUS WITH A ADSORBENT TRAP FOR A ODOR AND VOC}

1 is a view showing a sample collecting device including a malodorous material adsorption means according to a conventional embodiment,

Figure 2a, 2b is a view showing the adsorption / desorption process using a multi-stage adsorption device for the concentration of odorous substances and volatile organic compounds according to the first embodiment of the present invention,

Figure 3a, 3b is a diagram showing the adsorption / desorption process using a multi-stage adsorption device for the concentration of odorous substances and volatile organic compounds according to a second embodiment of the present invention,

Figure 4a, 4b is a view showing a quantitative collection state using a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds according to a third embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

8: suction / removable part, 14: syringe pump,

20: low concentration adsorption / desorption section, 30: first switching valve,

40: second switching valve.

The present invention relates to a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds. In order to increase the concentration of the sample, the multi-stage adsorption member is provided in series with each other, and the adsorption and desorption mode is carried out according to the adsorption and desorption mode. The present invention relates to a multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds, which can easily increase / decrease the concentration of a target gas by repeating easy adsorption / desorption by the number of the corresponding adsorption members by driving a pump or a general pump.

As is well known, an automatic analyzer is used to collect and analyze volatile organic compounds (VOCs) or odorous substances. In the analysis of samples using such automatic analyzers, volatile organic compounds (VOCs) distributed in extremely minute amounts in the atmosphere ( VOC) or malodorous substances could not be measured accurately.

More specifically, with reference to Figure 1 describes a sample collection device including a malodorous material adsorption means according to a conventional embodiment. Referring to this, the sample collecting device 2 including the malodorous substance adsorption means according to the conventional embodiment is provided with three 6-port switching valves 10, 12, 16, and after the suction of the atmosphere (4) In order to increase the concentration of the malodorous substances in the air, the air is injected into the adsorption / desorption section 8 which adsorbs / desorbs the malodorous substances. A pump (6) is provided for injecting the air in one direction, and the syringe pump (14) is driven to store odorous substances desorbed from the adsorption / desorption part (8) in a loop of a predetermined capacity; The syringe pump (14) stored in the loop is recompressed and injected into a known analysis device (18) for analyzing malodorous substances. Reference numeral 3 shown in the same figure is a storage container for providing nitrogen or helium gas for conditioning the device.

In the sample collecting device 2 including the malodorous substance adsorption means according to the conventional embodiment of the above-described configuration, a general adsorbent such as activated carbon is embedded in the adsorption / desorption portion 8. The sample collecting device (2), consisting of (8), is used for analyzing the high concentrations of odorous substances contained in the atmosphere. However, such a conventional sample collection device (2) has a problem that the analysis of the fine low concentration of odorous substances contained in the atmosphere is almost impossible because the concentration is very low.

In addition, the conventional sample collecting device (2) including the odor adsorbing means is discharged to the atmosphere for the odor or volatile organic compounds of a certain volume or more loops, so if the size of the container is large, only the size of the container It is not large, but the concentration of the fine gas contained therein is not increased, the remaining gas can not even contain the container, there was a problem that there is no effect on increasing the concentration.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described prior art. In order to increase the concentration of a sample, a multistage adsorption member is provided in series with each other, and a syringe pump or a general pump is driven in accordance with the adsorption and desorption mode. It is an object of the present invention to provide a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds, which can easily increase the concentration of the target gas by repeating the easy adsorption / desorption by the number of the corresponding adsorption member.

Another object of the present invention is to fill a certain volume of sample gas by using a syringe pump, the remaining gas is concentrated to the fine sample before discharged to the atmosphere through a low concentration adsorption / desorption unit, the concentrated gas desorption The present invention provides a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds that allow the concentration of the gas at the time of collection.

In order to achieve the above object, according to a preferred embodiment of the present invention, a cotton yarn layer is provided inside the glass tube into which the air is sucked, and a Peltier trap is provided at the lower portion thereof to perform suction / heat generation according to power input. An adsorption / desorption section for repeating adsorption and desorption to increase the concentration of the sample; It is connected to the rear end of the adsorption / desorption section in series, and is provided with a glass tube for transporting the air sucked into the inside, and controls the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube. Peltier trap is provided in the glass tube, and the low concentration adsorption / desorption unit is provided with adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air transported. Provided is a multistage adsorption device for concentrating malodorous substances and volatile organic compounds, wherein the sample is concentrated at a fine concentration through a multistage adsorption / desorption device provided in the middle of a series line.

Preferably, the low concentration adsorption / desorption part and the adsorbent layer for collecting the sample inside the glass tube; Provided is a multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds, characterized by consisting of a guard adsorption trap for removing polymeric hydrocarbons that are located in front of the adsorbent layer and introduced into the adsorbent layer.

Preferably, the adsorbent layer is provided with a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds, characterized in that composed of silica gel.

Preferably, the guard adsorption trap is provided with a multi-stage adsorption device for the concentration of odorous substances and volatile organic compounds, characterized in that the mixture of silica gel, Carbopack-C, glass beads in a ratio of 7: 1: 3.

On the other hand, the present invention is provided with a cotton yarn layer inside the glass tube in which the air is sucked, and a Peltier trap for adsorption / heating is provided at the bottom of the glass tube to absorb and adsorb and desorb to increase the concentration of the introduced sample. Repeated adsorption / desorption parts; One port is connected to the adsorption / desorption part, a syringe pump is connected to the other port, and a suction line is connected to the other port to switch the sucked air to the syringe pump through the adsorption / desorption part. Switching valve for switching the sample from the syringe pump to the other end when detached; It is connected to the rear end of the switching valve, and provided with a glass tube for transporting the atmosphere sucked therein, Peltier trap for controlling the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube is provided And a low concentration adsorption / desorption unit provided in the glass tube and having adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air to be transported. Provided is a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds characterized in that the concentration of the sample introduced through.

Preferably, a cotton yarn layer is provided inside the glass tube into which the air is sucked, and a Peltier trap for absorbing / heating the power supply is provided at the bottom thereof to repeat adsorption and desorption to increase the concentration of the introduced sample. Adsorption / desorption part to be; One port is connected to the adsorption / desorption part, a syringe pump is connected to the other port, and a suction line is connected to the other port to switch the sucked air to the syringe pump through the adsorption / desorption part. Switching valve for switching the sample from the syringe pump to the other end when detached; It is connected to the rear end of the switching valve, and provided with a glass tube for transporting the atmosphere sucked therein, Peltier trap for controlling the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube is provided A low concentration adsorption / desorption portion provided in the glass tube and provided with adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air to be transported; One port is connected to the rear end of the low concentration adsorption / desorption part, the other port is connected to the sample analyzer, and the other port is composed of a second switching valve connected to the discharge line. A multistage adsorption device for concentrating odorous substances and volatile organic compounds is provided, wherein the samples having a capacity exceeding the concentration of the odorous substances and the volatile organic compounds by repeatedly adsorbing / desorption are discharged to the discharge line.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

2A and 2B are diagrams illustrating an adsorption / desorption process using a multistage adsorption device for concentrating malodorous substances and volatile organic compounds according to a first embodiment of the present invention.

Referring to this, in the multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds according to the first embodiment of the present invention, the cotton yarn layer 86 is provided inside the glass tube 84 where the air is sucked. Another low concentration adsorption / desorption part 20 is provided at the rear end of the adsorption / desorption part 8 in which the Peltier trap 82 is formed.

The low concentration adsorption / desorption unit 20 is connected to the rear end of the adsorption / desorption unit 8 in order to further increase the concentration of the air adsorbed and desorbed through the adsorption / desorption unit 8 in series. A glass tube 204 is provided for transporting the air sucked into the inside, and the Peltier trap 202 controls the temperature of the glass tube 204 using the Peltier effect in the state surrounding the glass tube 204. )and; It is provided inside the glass tube 204, and is provided with low concentration adsorption / desorption means for adsorbing and desorbing odorous substances and volatile organic compounds in the air to be transported.

The low concentration adsorption / desorption means has the adsorbent layer made of silica gel 208 as the main material, in which case a plurality of polymer hydrocarbons (Hydrocarbon) present in the air directly into the silica gel 208, the silica gel 208 Will be adsorbed to the pores.

In the process, the hydrocarbon of the polymer adsorbed in the pores of the silica gel 208 is not easily desorbed and accumulates, and ultimately, the life of the adsorption trap is drastically reduced.

Therefore, in the case of the low concentration adsorption / desorption part 20 according to an embodiment of the present invention, a guard adsorbent trap (Guard Adsorbent) in the front end of the adsorption layer made of the silica gel 208 in the flow path of the glass tube 204 Trap: 206).

The guard adsorption trap 206 allows the selective adsorption of hydrocarbons having a high molecular weight while allowing sulfur compounds such as hydrogen sulfide to pass through without adsorption. It is a trap for effectively concentrating, and ultimately, to extend the life of the silica gel 208 to improve the durability of the entire device.

The guard adsorption trap 206 is made of a mixture of silica gel and Carbopack-C (Carbopack-C; 212) bar, the silica gel 208 and carbopack C (212) in a ratio of 7: 1 guard adsorption trap 206 is formed.

In addition, the mixture of the silica gel 208 and Carbopack C (212) is heated with glass wool (210) provided in the inside of the adsorption tube (204), the silica gel 208 and carbopack Through the gap of the mixture of C (212) and the glass tube (204) to prevent the hydrocarbon of the polymer to escape.

More preferably, when a predetermined ratio of glass beads 214 are mixed together in the mixture of the silica gel 208 and Carbopack C 212, the silica gel 208 and Carbopack C 212, glass beads 214 is mixed at a ratio of 7: 1: 3 to form the guard adsorption trap 206. Then, since the hydrocarbon is adsorbed on the outer surface of the glass bead 214, the adsorption and desorption effect of the sample is further enhanced.

Therefore, in the multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds according to the first embodiment of the present invention, another low concentration adsorption / desorption unit 20 is directly connected to the rear end of the general adsorption / desorption unit 8. By repeating adsorption and desorption again before the sample flows into the sample analyzing apparatus 18, the concentration of the target gas made of a fine concentration of odorous substances or volatile organic compounds can be increased. Through this, it is possible to increase the analysis accuracy of odorous substances and volatile organic compounds of fine concentration.

3a and 3b are diagrams illustrating an adsorption / desorption process using a multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds according to a second embodiment of the present invention.

Referring to this, the multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds according to the second embodiment of the present invention is provided with an adsorption / desorption section 8 connected to the sample inlet, and the adsorption / desorption section 8 ) Is connected via a switching valve 30, the switching valve 30 is connected to the sample inlet and the low concentration adsorption / desorption section 20, the low concentration adsorption / desorption section 20 It is connected to the sample analysis device 18, and when the sample analysis device 18 is separated from the low concentration adsorption / desorption section 20, the sample gas is discharged into the atmosphere through the low concentration adsorption / desorption section 20. It is configured to be.

In addition, a syringe pump 14 for generating a compression force for vacuum suction and discharge through the switching valve 30 is connected to the switching valve 30.

The low concentration adsorption / desorption unit 20 is connected to the rear end of the adsorption / desorption unit 8 in order to further increase the concentration of the air adsorbed and desorbed through the adsorption / desorption unit 8 in series. A glass tube 204 is provided for transporting the air sucked into the inside, and the Peltier trap 202 controls the temperature of the glass tube 204 using the Peltier effect in the state surrounding the glass tube 204. )and; It is provided inside the glass tube 204, and is provided with low concentration adsorption / desorption means for adsorbing and desorbing odorous substances and volatile organic compounds in the air to be transported.

Through this, the multistage adsorption device for concentrating malodorous substances and volatile organic compounds according to the second embodiment of the present invention is adsorbed through the adsorption / desorption unit 8 through line control of the switching valve 30. As shown in FIG. 3A, the detached sample is vacuum-injected by a predetermined capacity through the driving of the syringe pump 14, and the sample injected again through the syringe pump 14 is again switched to the switching valve 30. Through the sample is to be transferred in the same direction as in Figure 3b. Therefore, the sample introduced into the low concentration adsorption / desorption unit 20 can be concentrated and finely odorous substances and volatile organic compounds by repeating the adsorption and desorption in the low concentration adsorption / desorption unit 20. .

Figure 4a, 4b is a view showing a quantitative collection state using a multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds according to a third embodiment of the present invention.

Referring to this, the multistage adsorption device for concentrating malodorous substances and volatile organic compounds according to the third embodiment of the present invention is provided with an adsorption / desorption section 8 connected to the sample inlet, and the adsorption / desorption section 8 ) Is connected via a switching valve 30, the switching valve 30 is connected to the sample inlet and the low concentration adsorption / desorption section 20, the low concentration adsorption / desorption section 20 It is connected to the sample analysis device 18, and the second switching valve 40 is provided between the low concentration adsorption / desorption section 20 and the sample analysis device 18. The second switching valve 40 is configured to inject only a predetermined sample to the sample analyzing apparatus 18 side, and when the sample is injected into the sample analyzing apparatus 18 at a predetermined volume or more, the second switching valve 40 is switched. Discharge the sample into the atmosphere. Then, although the sample passing through the low concentration adsorption / desorption unit 20 does not flow into the sample analyzer 18, the low concentration adsorption / desorption unit 20 continuously adsorbs and desorbs the sample. After a predetermined time is repeated, the second switching valve 40 is restored again, and the sample detached from the low concentration adsorption / desorption unit 20 is introduced again into the sample analyzer 18. Then, since the sample concentrated at a high concentration may flow into the sample analyzing apparatus 18, analysis of odorous substances or volatile organic compounds having a fine concentration becomes very easy.

In addition, a syringe pump 14 for generating a compression force for vacuum suction and discharge through the switching valve 30 is connected to the switching valve 30.

The low concentration adsorption / desorption unit 20 is connected to the rear end of the adsorption / desorption unit 8 in order to further increase the concentration of the air adsorbed and desorbed through the adsorption / desorption unit 8 in series. A glass tube 204 is provided for transporting the air sucked into the inside, and the Peltier trap 202 controls the temperature of the glass tube 204 using the Peltier effect in the state surrounding the glass tube 204. )and; It is provided inside the glass tube 204, and is provided with low concentration adsorption / desorption means for adsorbing and desorbing odorous substances and volatile organic compounds in the air to be transported.

Through this, the multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds according to the third embodiment of the present invention is adsorbed and desorbed through the adsorption / desorption unit 8 through line control of the switching valve 30. The sample is injected into a certain capacity vacuum by driving the syringe pump 14, the sample injected through the syringe pump 14 again through the switching valve 30 in the direction as shown in Figure 4a Will be transferred.

In addition, when a sample of a predetermined capacity or more is input to the sample analyzing apparatus 18, the second switching valve 40 is switched to discharge the sample into the atmosphere as shown in FIG. 4B. Then, although the sample passing through the low concentration adsorption / desorption unit 20 does not flow into the sample analyzer 18, the low concentration adsorption / desorption unit 20 continuously adsorbs and desorbs the sample. After a predetermined time is repeated, the second switching valve 40 is restored again, and the sample detached from the low concentration adsorption / desorption unit 20 is introduced again into the sample analyzer 18. Then, since the sample concentrated at a high concentration may flow into the sample analyzing apparatus 18, analysis of odorous substances or volatile organic compounds having a fine concentration becomes very easy.

On the other hand, the multi-stage adsorption device for the concentration of malodorous substances and volatile organic compounds according to an embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the present invention.

As described above, the multi-stage adsorption apparatus for concentrating malodorous substances and volatile organic compounds according to the present invention repeatedly absorbs / desorbs gas of fine concentration by using a plurality of switching valves and syringe pumps and a plurality of adsorption traps. By doing so, the malodorous substance and the volatile organic compound of fine concentration can be concentrated to a high concentration, and through this, there is an advantage that an accurate sample can be analyzed.

Claims (6)

A cotton yarn layer is provided inside the glass tube through which the air is sucked, and a Peltier trap for absorbing / heating the power supply is provided at the bottom of the glass tube, and adsorption / desorption is repeated for adsorption and desorption in order to increase the concentration of the introduced sample. Wealth; It is connected to the rear end of the adsorption / desorption section in series, and is provided with a glass tube for transporting the air sucked into the inside, and controls the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube. Peltier trap is provided in the glass tube, and the low concentration adsorption / desorption unit is provided with adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air transported. Multistage adsorption device for the concentration of odorous substances and volatile organic compounds, characterized in that the concentration of the fine concentration sample through the multi-stage adsorption / desorption device provided in the middle of the series line. According to claim 1, wherein the low concentration adsorption / desorption unit and the adsorbent layer for collecting the sample inside the glass tube; A multi-stage adsorption device for concentrating malodorous substances and volatile organic compounds, characterized in that it consists of a guard adsorption trap for removing polymer hydrocarbons that are located in front of the adsorbent layer and flows into the adsorbent layer. The multistage adsorption device for concentrating malodorous substances and volatile organic compounds according to claim 2, wherein the adsorbent layer comprises silica gel. The method of claim 2, wherein the guard adsorption trap is a multi-stage adsorption device for the concentration of odorous substances and volatile organic compounds, characterized in that the mixture of silica gel, Carbopack-C, glass beads in a ratio of 7: 1: 3. A cotton yarn layer is provided inside the glass tube through which the air is sucked, and a Peltier trap for absorbing / heating the power supply is provided at the bottom of the glass tube, and adsorption / desorption is repeated for adsorption and desorption in order to increase the concentration of the introduced sample. Wealth; One port is connected to the adsorption / desorption part, a syringe pump is connected to the other port, and a suction line is connected to the other port to switch the sucked air to the syringe pump through the adsorption / desorption part. Switching valve for switching the sample from the syringe pump to the other end when detached; It is connected to the rear end of the switching valve, and provided with a glass tube for transporting the atmosphere sucked therein, Peltier trap for controlling the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube is provided And a low concentration adsorption / desorption unit provided in the glass tube and having adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air to be transported. Multistage adsorption device for the concentration of odorous substances and volatile organic compounds characterized in that the concentration of the sample introduced through. A cotton yarn layer is provided inside the glass tube through which the air is sucked, and a Peltier trap for absorbing / heating the power supply is provided at the bottom of the glass tube, and adsorption / desorption is repeated for adsorption and desorption in order to increase the concentration of the introduced sample. Wealth; One port is connected to the adsorption / desorption part, a syringe pump is connected to the other port, and a suction line is connected to the other port to switch the sucked air to the syringe pump through the adsorption / desorption part. Switching valve for switching the sample from the syringe pump to the other end when detached; It is connected to the rear end of the switching valve, and provided with a glass tube for transporting the atmosphere sucked therein, Peltier trap for controlling the temperature of the glass tube using the Peltier effect in the state surrounding the glass tube is provided A low concentration adsorption / desorption portion provided in the glass tube and provided with adsorption / desorption means for secondary adsorption and desorption of odorous substances and volatile organic compounds in the air to be transported; One port is connected to the rear end of the low concentration adsorption / desorption part, the other port is connected to the sample analyzer, and the other port is composed of a second switching valve connected to the discharge line. A multi-stage adsorption device for concentrating odorous substances and volatile organic compounds, characterized in that the sample is more than the capacity is discharged to the discharge line by repeating the adsorption / desorption secondary.

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