KR200420973Y1 - equipment of gas and water treatment for TMS of chimney or facilities of waste incineration - Google Patents

Abstract

The present invention has a gas-liquid mixing recess formed with a recess on the top of the gas-liquid mixer so that the gas and liquid can be mixed smoothly, and the gas-liquid separator separates the liquid and the gas by separating the gas-liquid separation. The present invention relates to a gas-liquid treatment apparatus of a chimney TMS waste incineration plant having a separable forgetting point.

Gas-liquid Mixer, Gas-liquid Separator

Description

Equipment of gas and water treatment for TMS of chimney or facilities of waste incineration}

1 is a schematic configuration diagram of a conventional gas-liquid treatment system.

2 is a block diagram of a gas-liquid treating apparatus of the present invention.

Brief code description of the main parts of the drawing

1: gas mixture tube 2, 13: gas discharge tube

3: gas-liquid separation tube 4: liquid discharge tube

5, 25: gas discharge pipe 10: gas mixture

11: gas inlet tube 12: liquid inlet tube

14: gas mixture mixing part 15: liquid waste liquid pipe

21: gas inlet pipe 22: liquid discharge pipe

23: gas-liquid separation part 24: liquid waste liquid pipe

The present invention relates to a system for separating and treating gas and liquid, and relates to a gas-liquid treatment apparatus of a chimney TMS waste incineration facility that separates gas and liquid generated from an industrial chimney to obtain desired measurement data. .

In general, the chimney monitoring system (TMS) aims to reduce air pollutant emissions and improve air quality by monitoring the air pollutant emission status of individual workplaces 24 hours a day. Expect the effects of improving quality and preventing environmental pollution, raising residents' awareness of participation in environmental preservation, providing basic data necessary for establishing environmental policy (total regulation, discharge charges, rational guidance enforcement, environmental impact assessment, etc.). have.

The automatic chimney measurement system measures non-dispersion infrared method and ion electrode method to analyze hydrogen chloride.

On the other hand, the conventional prior art monitoring system (TMS) for analyzing the gas discharged from the chimney is a gas mixture having a high heat generated from the chimney, that is, about 180 degrees heat as shown in the accompanying drawings Through the gas-liquid discharge tube (2) to discharge the gas and liquid to the gas-liquid separation tube (3). At this time, the gas-liquid separation tube (3) allows a part of the liquid to measure the gas component in the liquid through the liquid discharge pipe (4) and the gas can be passed through the dehumidifier installed outside the gas discharge pipe (5) to measure the gas component. To ensure that

However, since the conventional chimney detection system is rapidly cooled when reaching the gas-liquid mixture tube 1 because the temperature of the gas discharged from the chimney is about 180 degrees high heat, dew forms on the inner wall of the gas-liquid mixture tube 1. Since the dew, that is, the liquid is not separated from the gas-liquid separation tube 3, the gas discharge tube 5 includes some liquid components and is discharged. The liquid discharge tube 4 is discharged with some gas, thereby discharging the gas and the liquid. There is a problem that the measurement data cannot be measured accurately.

The present invention allows the gas-liquid mixing tube and the gas-liquid separation tube to separate the gas and the liquid to accurately analyze the components of the gas discharged from the chimney.

The present invention relates to a gas-liquid treatment system that can accurately and accurately analyze the gas and liquid components generated in the chimney, as shown in Figure 2 attached to the gas inlet pipe for injecting the gas discharged from the chimney (11) ), And a liquid inlet pipe 12 for introducing a liquid from the outside so that the gas can be smoothly taken out, and a gas filled with the liquid connected to the lower end of the liquid inlet pipe 12 is mixed with the liquid and discharged to the outside. The gas-liquid mixer 10 to which the gas-liquid discharge pipe 13 is connected is connected.

At the top of the gas-liquid discharge tube 13 of the gas-liquid mixer 10, a gas-liquid mixture having a predetermined space is formed so that the liquid flowing from the liquid inlet tube 12 does not fall on the bottom of the inner wall of the gas-liquid mixer 10. The recess 14 has a configuration in which the recess 14 is connected.

The gas-liquid mixer 10 has a liquid waste pipe 15 connected to discharge the liquid generated therein.

The gas-liquid inlet tube 21 for introducing a liquid containing the gas discharged from the gas-liquid discharge tube 13 of the gas-liquid mixer 10 therein, and the liquid and the gas introduced into the gas-liquid inlet tube 21 by separating A liquid discharge tube 22 for discharging the liquid so that the liquid component can be analyzed and a liquid waste tube 24 for discharging the liquid to the outside by forming a tube on the side of the liquid measuring tube 21, and the gas-liquid inlet tube ( 21 is connected to the side of the gas discharge pipe 25 for discharging the gas is connected to the gas-liquid separator 20 is connected.

The upper part of the liquid discharge pipe 22 of the gas-liquid separator 20 is connected to the gas-liquid separation recess 23 formed with a concave part so that a predetermined space can be formed to receive the gas and the liquid and discharge the liquid to the outside. Have

Referring to the effect of the present invention is configured as described as follows.

The present invention relates to a gas-liquid treatment system that can accurately and accurately analyze the gas and liquid components generated in the chimney, as shown in Figure 2 attached to the gas discharged from the chimney through the gas inlet pipe (11) Gas-liquid mixer 10 to be filled to a certain height therein.

At this time, the gas-liquid mixing tube 10 allows the liquid introduced through the liquid inlet tube 12 from the outside to directly drop into the gas-liquid mixing recess 14 formed on the upper portion of the gas-liquid discharge tube 13 so that the liquid of the gas-liquid mixer 10 It will prevent it from hanging or hanging on the inner wall.

Here, the gas-liquid mixer 10 is discharged to the gas-liquid separator 20 through the gas-liquid discharge tube 13 while being mixed with the liquid filled in the gas-liquid mixing recess 14 while the filled gas is filled to a certain height.

The gas-liquid separator 20 fills the gas-liquid separator 23 formed at the upper end of the liquid discharge pipe 22 with the liquid including the gas flowing from the gas-liquid mixer 10.

At this time, the gas and liquid filled in the gas-liquid separation unit 23 is sucked only by the gas filled in the gas-liquid separator 20 by the suction force strongly sucked by the air suction device connected to the outside of the gas discharge pipe 25 is discharged to the outside will be.

The gas discharged through the gas-liquid discharge pipe 250 is sent to a measuring device for measuring only the gas component to analyze the gas component.

In addition, the gas-liquid separation unit 23 discharges the contained liquid through the liquid discharge pipe 22 so that the liquid component can be measured, and the liquid accumulated in the gas-liquid separator 10 externally through the liquid waste pipe 24. To be discharged.

The present invention acting as described above has a gas-liquid mixing recess formed with a recessed portion at the top of the gas-liquid discharge tube of the gas-liquid mixer so that the gas and liquid can be mixed smoothly, and the gas-liquid separator has a gas-liquid separation component to separate the liquid and the gas. And analyzing the liquid and having the advantage of preventing the liquid from splashing in the gas-liquid separator or gas-liquid mixer when measuring the hydrogen chloride.

Claims (1)

In the gas-liquid analyzer is connected to a gas-liquid mixer for mixing the gas and the liquid to measure the gas discharged from the chimney, and a gas-liquid separator connected to separate the gas and liquid in the gas-liquid mixed in the gas-liquid mixing tube and discharged, the gas-liquid analyzer At the top of the gas-liquid discharge pipe 13 of the mixer 10, a liquid-liquid mixing recess having a predetermined space is formed by forming a recessed portion so that the liquid flowing from the liquid inlet pipe 12 does not fall on the bottom of the inner wall of the gas-liquid mixer 10 ( 14) and the gas-liquid separation recess 23 formed in the upper portion of the liquid discharge tube 22 of the gas-liquid separator 20 so that a predetermined space can be formed to receive gas and liquid and discharge only the liquid to the outside. Is connected to the gas-liquid treatment device of the chimney TMS waste incineration facility so that the separation of gas-liquid can be separated and analyzed smoothly.

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