KR100657584B1 - System of electrode structure for tms of chimney or facilities of waste incineration - Google Patents

Abstract

An electrode structure system of a chimney TMS and a waste incineration facility is provided to remove a non-contact portion of a liquid and an electrode due to bubbles in a measuring electrode unit area of an electrode ionizer. In an electrode structure system of a chimney TMS and a waste incineration facility, a hydrogen chloride electrode(60) forms a unit area at a lower portion thereof so as to secure a space for a test material liquid and so as not to be exposed. A measurement protection cap(10) is inserted into and connected to the hydrogen chloride electrode. A negative electrode(40) and a positive electrode(50) are connected to flow a current for measuring a component of the test material liquid distributed at a lower end portion of the measurement protection cap.

Description

 System of electrode structure for TMS of chimney or facilities of waste incineration}

1 is a schematic configuration diagram of a conventional hydrogen chloride measuring device.

2 is a side view of the hydrogen chloride measuring electrode system of the present invention.

3 is a side view of the hydrogen chloride measuring electrode system according to the present invention.

4 is a view of FIG. 3 and FIG. 4 seen from above.

Code descriptions for the main parts of the drawings

1; hydrogen chloride electrode 2: electrode holder

3,20; sample liquid supply pipe 4,30: sample liquid discharge pipe

10: measuring protective cap 40: negative electrode

50: positive electrode 60: hydrogen chloride measuring instrument

The present invention provides a hydrogen chloride measuring electrode system to remove the non-contact portion of the liquid and the electrode by the air bubbles in the electrode unit area of the electrode ionizer so that accurate measurement of the electrode ionizer measuring hydrogen chloride can be made. It is about.

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.

Existing conventional electrode type hydrogen chloride electrode (1) during the process of introducing the sample liquid, that is gas and liquid through the sample liquid supply pipe (3) and discharged again through the sample liquid discharge pipe (4) as shown in Figure 1 Hydrogen chloride can be measured by the difference in voltage emitted at the bottom of the bottom.

Here, the hydrogen chloride electrode 1 sends a current through the electrode terminal to measure the hydrogen chloride in the gas and liquid components flowing from the sample liquid supply pipe 3 so that the hydrogen chloride can be measured by the magnitude of the current. It is.

In addition, the hydrogen chloride electrode 1 blocks the passage of the electrode holder 2 while preventing the movement of the hydrogen chloride electrode 1 to prevent the gas and liquid from being exposed to the outside at the measurement site.

However, the hydrogen chloride electrode 1 has a narrow measurement unit area at the bottom of the bottom surface, so that the gas introduced through the sample liquid supply pipe 2 and the gas in the liquid form bubbles on the measurement electrode surface, and the liquid is the sample liquid discharge tube 4. Since it is discharged through the has the problem that it is difficult to accurately measure the concentration of hydrogen chloride.

The present invention forms a different height of the sample liquid supply tube and the sample liquid discharge tube so that the sample liquid supplied from the sample liquid supply tube is delayed for a predetermined time and discharged into the sample liquid discharge tube, and the sample liquid supplied from the sample liquid supply tube is filled to a certain height. As the bubble rises up and connects the negative electrode and the positive electrode at an angle, it connects the measuring electrode so that the measuring electrode does not contact the bubble and the bottom of the lower part of the measuring protective cap forms a bottom of a certain width so that the measuring unit area is widened. Since it can be filled and distributed, it is possible to accurately measure hydrogen chloride through the filled sample liquid.

The present invention relates to a hydrogen chloride measuring electrode system for accurately measuring the hydrogen chloride, the sample liquid supply pipe 20 to allow the gas-liquid sample solution to be supplied from the outside to the inside as shown in the accompanying drawings ), And a sample liquid discharge tube 30 for discharging the measured sample liquid to the second part, a negative electrode 40 for measuring the sample liquid supplied from the sample supply tube 20, and a current of the negative electrode 40. It has a configuration that the hydrogen chloride electrode 60 is connected to the positive electrode 50 is installed on the opposite side so as to be able to.

The hydrogen chloride electrode 60 forms a constant side unit area at the lower end so as not to be exposed to the outside while securing a space in which the sample liquid supplied from the sample liquid supply pipe 20 can remain for a predetermined time, and exposed to the outside. It has a configuration that is connected to the measurement protection cap 10 to be fitted so that it can be covered so as not to cover. Here, the side unit area is a side wall of the space formed at a predetermined height between the sample liquid supply pipe 20 from the bottom surface of the space in which the sample liquid introduced through the sample liquid supply pipe 20 is accommodated. it means.

On the other hand, the sample liquid supply pipe 20 is installed at the bottom of the measuring protective cap 10 to cross the height and the sample liquid discharge pipe 30 which is installed on the opposite side to be discharged by a predetermined time delay It is characterized in that it is formed so that the measurement unit area can be widened.

Referring to the effects of the present invention configured as described in detail as follows.

The present invention relates to a hydrogen chloride measuring electrode system that can accurately measure the hydrogen chloride, as shown in Figures 2 to 4 the hydrogen chloride electrode 60 is the gas and liquid supplied from the sample liquid supply pipe 20 In order to measure the hydrogen chloride in the sample liquid, hydrogen chloride is measured through the amount of current by flowing an electric current using the negative electrode 40 and the positive electrode 50.

The cathode electrode 40 and the positive electrode 50 are inclined at an angle from the hydrogen chloride electrode device 60 at an angle so that the cathode electrode 40 and the positive electrode 50 slide upward on the electrode even when bubbles are generated by the gas flowing from the sample liquid supply pipe 20. Therefore, the electrodes are not in contact with each electrode so that each electrode flows a current so that a smooth measurement can be made.

At this time, the hydrogen chloride electrode 60 is a sample liquid supply pipe 20 and the sample liquid discharge pipe (20) so that the sample liquid supplied from the sample liquid supply pipe 20 is discharged through the sample discharge pipe 30 after a long time delay in the internal space ( The height of the installation 30 is different from each other so that the sample liquid passes through the sample liquid supply pipe 20 so that the sample liquid can be discharged to the sample liquid discharge pipe 30 after the sample liquid is filled in a predetermined amount.

In addition, the sample liquid supply pipe 20 has a lower surface of the lower end of the measuring protective cap 10 installed at a certain height to form a predetermined area so that when the sample liquid passes through the lower surface of the lower end of the measuring protective cap 10, Since the current flows through the anode 50, the amount of current is measured so that the hydrogen chloride can be measured by the amount of current.

The present invention acting as described above forms a different height of the sample drug supply tube and the sample liquid discharge tube so that the sample liquid supplied from the sample liquid supply pipe is discharged to the sample liquid discharge tube by a predetermined time delay, and the sample liquid supplied from the sample liquid supply pipe. As this bubble is filled to a certain height, the bubble rises upward, and the negative electrode and the positive electrode are inclined at an angle, so that the measuring electrode does not come into contact with the bubble. Since it is sufficiently filled in the measurement space and distributed, it has the advantage of accurately measuring hydrogen chloride through the rich sample liquid.

Claims (2)

Sample liquid supply pipe to allow the sample liquid to be introduced from the outside to be supplied to the inside to measure the concentration of hydrogen chloride generated in the chimney, a sample liquid discharge pipe for discharging the measured sample liquid to this part, and supplied from the sample supply pipe In the hydrogen chloride electrode device measured by the amount of current generated in the electrode for measuring the sample liquid, The hydrogen chloride electrode 60 forms a constant side unit area at the lower end so as not to be exposed to the outside while securing a space in which the sample liquid supplied from the sample liquid supply pipe 20 can remain for a predetermined time, and exposed to the outside. The measuring protection cap 10 is inserted and connected from the upper side of the space so as to be divided to face each other so as to flow a current to measure a component of the sample liquid distributed on the bottom surface of the lower end of the measuring protection cap 60. The electrode structure system of the chimney TMS and waste incineration facility, which is connected to the negative electrode 40 and the positive electrode 50, which are inclined at a predetermined angle to be able to slide upward when bubbles are generated by gas and liquid. According to claim 1, wherein the sample liquid supply pipe 20 is the height of the sample liquid discharge pipe 30 is installed on the opposite side so that the measurement sample liquid is discharged at a predetermined time at the lower end of the measuring protective cap 10 An electrode structure system of a chimney TMS and waste incineration facility, which is formed so as to be staggered so as to widen a unit of measurement.

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