KR101154367B1 - PCBs SCREENING TEST KIT AND TEST METHOD - Google Patents

Abstract

The present invention relates to an electrical insulating oil PCC concentration measurement kit that can easily measure the concentration of PCBs contained in the electrical insulating oil. The present invention is a flexible first tube containing a first ampoule containing a mixture of diglyme and naphthalene for extracting chlorine in the PCBs component, and a second ampoule containing a dispersant; And a soft second tube containing a third ampoule containing mercury nitrate that reacts with the chlorine and a fourth ampoule containing an ethanol-based reagent to help the reaction between the chlorine and mercury nitrate. Therefore, it is possible to easily determine whether the concentration of the PCBs contained in the electric insulating oil, such as a waste voltage transformer, more than or less than the reference concentration in the field, it is possible to determine whether the precise analysis according to the results measured in the field.

Description

Electrical insulating oil PCC concentration measuring kit and measuring method {PCBs SCREENING TEST KIT AND TEST METHOD}

The present invention relates to an electrical insulating oil PCC concentration measuring kit and a method, and more particularly, to an electrical insulating oil PCC concentration measuring kit and a measuring method which can easily measure the concentration of PCBs contained in the electrical insulating oil.

1 is a diagram showing the chemical structural formula of PCBs.

Polychlorinated biphenyls (PCBs) are compounds in which a hydrogen atom bonded to two phenyl groups (C ₆ H ₅ ⁻ ) is substituted with chlorine as shown in FIG. 1. There are a total of 209 isomers ranging from monochlorinated biphenyl to Decachlorinated biphenyl.

Since commercial production in the United States in 1929, PCBs have been produced worldwide under various brand names until they were discontinued, and their excellent insulating properties have been used in various applications such as insulating oils, lubricants, plasticizers, paints and copy papers in transformers and accumulators. .

These PCBs are not only toxic but also poorly decomposed and remain concentrated in living organisms, which banned the production and use of PCBs in countries around the world in the 1970s. Exposure to PCBs can lead to skin diseases, liver failure, immune dysfunction, reproductive dysfunction, neurological and endocrine disorders.

Therefore, in Korea, electric insulation oil contaminated with PCBs above the regulations is regulated to be properly managed and processed according to the related laws through analysis of PCBs content in power equipment that uses electric insulation oil as an insulation material.

2 is a process chart showing a procedure for measuring the concentration of PCBs according to the prior art.

In order to measure the concentration of PCBs according to the prior art, as shown in FIG. 2, the gas chromatography method should be measured according to the waste process test method, which is a related law of the Ministry of Environment. Extraction is performed by passing through a silica gel column, purification (pretreatment procedure), and then injection into a gas chromatograph to identify and quantify PCBs according to the shape of the peak shown in the chromatogram (quantitative procedure).

However, according to the conventional concentration measurement method described above, in order to accurately measure the concentration of PCBs in the electrical insulating oil, a precision analyzer called gas chromatography / electron capture device (GC; Electron Capture Rector) must be used. do. However, these precision analyzers have been difficult to use because they are expensive and require complicated pretreatment and highly skilled analytical personnel. In addition, it is impossible to analyze a large amount of samples due to the high cost of the analysis and the time required for the measurement.

An object of the present invention is to solve the above-mentioned problems, to provide an electrical insulating oil PCC concentration measurement kit and measuring method that can analyze the concentration of PCBs contained in the electrical insulating oil through a simple procedure.

In order to achieve the above object, the present invention electrical insulating oil PCC concentration measurement kit includes a first ampoule containing a mixed solution of diglyme and naphthalene for extracting chlorine from PCBs, and a second soft ampoule containing a dispersant. tube; And a soft second tube containing a third ampoule containing mercury nitrate that reacts with the chlorine and a fourth ampoule containing an ethanol-based reagent to help the reaction between the chlorine and mercury nitrate.

As the dispersant, sodium is preferable.

Preferably, a buffer is injected into the second tube.

Ampoule support for supporting the ampoules is preferably provided inside the first and second tubes, respectively.

In the first tube, the first ampoule is positioned above and the second ampoule is positioned below, within the second tube, the third ampoule is located above and the fourth ampoule is located below.

In the present invention, the method of measuring the electrical insulating oil PCB concentration, (a) adding a sample to the first tube and closing the lid, (b) by pressing the side of the first tube to break the first ampoule and the second ampoule, shake and mix (C) opening the lids of the first tube and the second tube, injecting the buffer solution contained in the second tube into the first tube, closing and shaking the lid of the first tube, and generated in the first tube. Venting the gas, and (d) stabilizing the first tube upside down with the lid down after the venting to allow the solutions therein to separate.

According to the present invention, the method for measuring the electrical insulating oil PCB concentration includes (e) injecting a clear solution at the bottom of the first tube into the second tube, breaking the third ampoule and the fourth ampoule in the second tube, and then shaking and mixing the mixture. step; And (f) measuring the concentration of the PCBs by observing the color of the solution contained in the second tube.

In step (f), if the solution is purple, the concentration of PCBs is less than the concentration set at the time of manufacture. If the solution is yellow or colorless, it is determined that the concentration is higher than the set concentration.

According to the electric insulating oil PCC concentration measuring kit and measuring method according to the present invention, it is possible to easily measure on the site whether the concentration of PCBs contained in the electric insulating oil such as waste voltage transformer is higher than or equal to the reference concentration, and measured in the field. Based on the results, it is possible to determine whether or not the precise analysis. Therefore, precise analysis only needs to be performed when the concentration of PCBs is greater than or equal to the reference concentration, thus saving time and money.

1 is a diagram showing the chemical structural formula of PCBs.
2 is a process chart showing a procedure for measuring the concentration of PCBs according to the prior art.
3 is a block diagram of an electrical insulating oil PCC concentration measurement kit according to an embodiment of the present invention.
Figure 4 is a process chart showing a method for measuring the concentration of PCB contained in the electric heat-transfer oil using the electrical insulating oil PCB concentration measurement kit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of an electrical insulating oil PCC concentration measurement kit according to an embodiment of the present invention.

According to the present invention, the electrical insulating oil PCC concentration measurement kit includes a first tube 10 having a first ampoule 11 and a second ampoule 12, a third ampoule 21, and a fourth ampoule 22. It includes a second tube (20).

The first and second tubes 10 and 20 are formed to have an open top, and the lids 13 and 23 are coupled to the open top. The first and second tubes 10 and 20 are formed of a soft polyethylene resin. Accordingly, the user can press the sides of the first and second tubes 10 and 20 to break the ampoules 11, 12, 21, and 22 embedded therein.

Ampoule supports 14 and 24 for supporting the ampoules 11, 12, 21, and 22 are respectively provided in the first and second tubes 10 and 20. Ampoule support (14, 24) is soft and formed in the form of a hollow pipe is inserted into the ampoule is fixed. Since the height of the ampoule supports 14 and 24 is lower than the height of the first and second tubes 10 and 20, the solution is shaken when the first and second tubes 10 and 20 are shaken. (24) Communicate inside and out.

The first ampoule 11 is infused with a mixture of diglyme (Diethylene Glycol Dimethyl Ether) and naphthalene for extracting chlorine from PCBs in insulating oil. The first ampoule 11 is located on the inner upper portion of the first tube 10.

The second ampoule 12 is filled with sodium (Na, Sodium) as a dispersant. The dispersant allows the insulating oil to be well dispersed in the mixture of diglyme and naphthalene. The second ampoule 12 is located at the inner bottom of the first tube 10.

Mercury nitrate (Hg (NO ₃ ) ₂ ) is injected into the third ampoule 21 to quantify the extracted chlorine. Mercury nitrate is a color-forming reagent that reacts with chlorine extracted from PCBs to produce different colors depending on the concentration of chlorine. The third ampoule 21 is located on the inner upper portion of the second tube 20.

The fourth ampoule 22 is injected with an ethanol-based reagent that helps the reaction between mercury nitrate and chlorine. The fourth ampoule 22 is located inside the lower portion of the second tube 20.

The ampoules 11, 12, 21, and 22 are intended to prevent deterioration of reagents filled therein and to facilitate transport and measurement. The ampoules 11, 12, 21, and 22 are made of glass and are broken when an impact is applied from the outside.

On the other hand, in the second tube 20, the buffer 25 for mixing the mixture of the first ampoule 11 and the insulating oil so that the viscosity of the insulating oil in addition to the third and fourth ampoules 21 and 22 is reduced. It is filled. As such a buffer solution 25, a mixed solution of monobasic sodium phosphate (NaH ₂ PO ₄ ) and nitric acid (HNO ₃ ) is used.

4 is a flowchart illustrating a method of measuring the concentration of PCB contained in the electric heat-transfer oil using the electrical insulating oil PCB concentration measuring kit according to an embodiment of the present invention.

In order to measure the concentration of PCC, as shown in FIG. 4, first, the lid 13 of the first tube 10 is opened, and a predetermined amount (for example, 5 ml) of the sample (insulating oil) is removed using a plastic pipette (eg, 5 ml) of the first tube 10. Put in and close the lid 13 (S10).

After the sample is put into the first tube 10, the lower side of the first tube 10 is pressed to break the second ampoule 12 therein and shakes vigorously for 10 seconds to mix the dispersant and the sample. Then, pressing the upper side of the first tube 10 to break the first ampoule 11, shake for 10 seconds, and then leave for about 1 minute to react the mixed solution and the sample injected into the first ampoule 11 (S20). .

During the reaction between the mixed liquid injected into the first ampoule 11 and the sample, all of the caps 13 and 23 of the first and second tubes 10 and 20 were opened to fill the second tube 20. After the buffer 25 is injected into the first tube 10, the lid 13 of the first tube 10 is closed and shaken for 10 seconds. Then, the dispensing nozzle (not shown) attached to the lid 13 is lifted up to discharge the gas generated in the first tube 10 to the outside. When the discharge of the gas generated in the first tube 10 is completed, the dispensing nozzle is lowered again and the lid 13 is well closed to shake again for 10 seconds. After lifting the dispensing nozzle to discharge the gas, lower the dispensing nozzle and lock the lid 13 (S30).

 After the discharge of the gas is completed as described above, the first tube 10 is placed upside down so that the lid 13 faces downward. In this state to stand for 2 minutes to allow the solutions inside to separate from each other (S40). At this time, if the oil layer is below, the concentration of PCBs is higher than the concentration set at the time of manufacture. If the oil layer is on the contrary, continue the measurement.

If the oil layer is above, open the lid 23 of the second tube 20, insert the plastic filter funnel into the second tube 20, stand up, and then dispense nozzle attached to the lid 13 of the first tube 10. Lifting and pressing the outer surface of the first tube 10 is injected a predetermined amount (for example 5ml) into the second tube 20 through a funnel clear solution at the bottom of the first tube (10). Then, close the lid 23 of the second tube 20 and press the lower side of the second tube 20 to break the fourth ampoule 22 and shake for 10 seconds, again the upper side of the second tube 20 Press to break the third ampoule 21 and shake for 10 seconds. Since the clear solution contains chlorine extracted from the PCBs, the chlorine and mercury nitrate of the third ampoule 21 react (S50).

As described above, when chlorine and mercury nitrate react, the chlorine has a different color depending on the concentration of chlorine (the concentration of PCBs). Therefore, the color of the solution is observed to determine whether the concentration of PCBs is above a certain concentration or less (S60). That is, if the color of the solution is purple, the concentration of PCBs contained in the insulating oil is less than the concentration set at the time of manufacture. Therefore, if the color of the solution is yellow or colorless, additional precision analysis is required to determine the exact content of the PCBs.

As described above, the present invention has been described based on the preferred embodiments, but the present invention is not limited to the specific embodiments, and those skilled in the art can change the scope within the scope of the claims. have.

10: first tube 11: the first ampoule
12: second ampoule 13: lid
14: ampoule support 20: second tube
21: third amplifier 22: fourth amplifier
23: lid 24: ampoule support
25 buffer

Claims (8)

A soft first tube containing a first ampoule containing a mixture of diglyme and naphthalene for extracting chlorine from the PCBs, and a second ampoule containing a dispersant; And
A third ampoule containing mercury nitrate that reacts with the chlorine and a second tube containing a fourth ampoule containing an ethanol-based reagent to help the chlorine and mercury nitrate react,
An electric insulating oil PCC concentration measuring kit, characterized in that the ampoules supporters for supporting the ampoules are provided inside the first and second tubes, respectively. The method of claim 1,
The dispersant is sodium electrical insulating oil PCB concentration measurement kit, characterized in that the sodium. The method of claim 1,
Electrically insulating oil PCB concentration measurement kit, characterized in that the buffer is injected into the second tube. delete The method according to any one of claims 1 to 3,
In the first tube, the first ampoule is located at the top and the second ampoule is located at the bottom, in the second tube, the third ampoule is located at the top and the fourth ampoule is located at the bottom Electrical insulating oil PCC concentration measurement kit. (a) inserting a sample into the first tube and closing the lid;
(b) pressing the sides of the first tube to break the first ampoule and the second ampoule, and then shaking and mixing the mixture;
(c) opening the lids of the first tube and the second tube, injecting the buffer solution contained in the second tube into the first tube, closing the lid of the first tube, shaking and discharging the gas generated in the first tube; step; And
(d) stabilizing the first tube upside down to allow the lid to go down after the gas is discharged so that the internal solutions are separated. The method according to claim 6,
(e) injecting a clear solution at the bottom of the first tube into the second tube, breaking the third ampoule and the fourth ampoule in the second tube, and shaking the mixture; And
(f) measuring the concentration of the PCBs by observing the color of the solution contained in the second tube; electrical insulation oil PCC concentration measurement method further comprising. The method of claim 7, wherein
When the solution is purple in step (f), the concentration of the PCBs is less than the concentration set at the time of manufacture, if the solution is yellow or colorless, the electrical insulating oil PCC concentration measurement method, characterized in that more than the set concentration.

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