KR20050023878A - Internal abnormal detecting diagnosis apparatus for transformer - Google Patents

Abstract

PURPOSE: A diagnosis apparatus for detecting internal abnormality of a lag-transformer is provided to reduce size of the diagnosis apparatus by excluding a gas extractor and inserting a gas sensor directly to insulating oil. CONSTITUTION: A diagnosis apparatus detects a pyrolysis gas concentration of insulating oil of a transformer(1) to diagnose internal errors of the transformer. A gas detector(5) with a gas sensor(4) is implemented on an upper area(3) of the insulating oil. The insulating oil is filled in the transformer. The gas detector is connected to a controller and a display. The controller(6) is implemented on an external box of the transformer. The display(8) includes a display lamp which displays detection result. The controller is preferably remotely operated by using a communication cable and a data transceiver.

Description

Internal abnormal detecting diagnosis apparatus for transformer

The present invention relates to a diagnostic apparatus for detecting an internal abnormality of a transformer in operation, for example, a ground transformer, and more particularly, pyrolysis dissolved or collected in an insulating oil or an upper space inside a transformer generated when an abnormality in an transformer or an insulating oil degrades. The present invention relates to an improved internal abnormality detection diagnostic apparatus for a ground transformer for diagnosing an abnormality in a transformer by detecting a gas concentration using a gas sensor.

As is well known, transformers often have electrical or mechanical properties deteriorated due to deterioration or arcing, partial discharge, and leakage current during operation, leading to sudden accidents. In particular, since the ground transformer is installed and operated on the roadside of the downtown area, it is inevitable that civil complaints and property damages due to power outages or explosions, as well as civil power outages in the surrounding area are inevitable.

There are many ways to detect abnormalities in the transformer in advance. Among them, the transformer diagnosis method based on the type and concentration of gas through the analysis of the dissolved gas in insulating oil is the most reliable and widely used in the world. If abnormality occurs in the transformer or insulation oil is deteriorated due to long-term use, heat is generated. By this heat, insulation materials such as insulation oil, insulating paper, and press board are thermally decomposed to generate gas. This generated gas is dissolved in insulating oil. By analyzing the type and concentration of gas dissolved in the insulating oil, it is possible to diagnose the abnormality and the kind in the transformer early.

In other words, if an abnormality occurs in the transformer, the concentration of gas generated at the time of an increase increases, so by setting a gas concentration management standard and monitoring the gas concentration periodically or continuously, it detects it at an early stage and takes appropriate measures to make an accident. It is possible to prevent the progress of the furnace in advance.

Table 1 below shows the main gases generated in case of abnormality in the transformer.

Table 1 Major Gases Generated by Abnormal Types

Type of this award Main outbreak gas Overheating of Insulating Oil Low temperature (below 300 ℃)   Ethane, methane, ethylene Medium temperature (300 ~ 700 ℃)   Methane, ethylene, ethane High temperature (more than 700 ℃)   Ethylene, methane, ethane   Overheating of solid insulator (over 200 ℃)   Carbon monoxide, carbon dioxide, methane   Arc in insulating oil (over 1,000 ℃)   Acetylene, hydrogen, ethylene, methane   Corona discharge in insulating oil (over 1,000 ℃)   Hydrogen, acetylene, ethylene, methane   Insulation, deterioration of insulating oil   Carbon dioxide, carbon monoxide

In general, a method of diagnosing the abnormality of the transformer by analyzing the dissolved gas in the transformer insulating oil in operation is the most common method is to take a sample of the insulating oil from the transformer, transport it to the laboratory to extract the gas, and then analyze it using a gas analyzer Is being used.

However, these laboratory analytical methods can achieve accurate results, but in recent years certain gas (e.g. hydrogen) concentrations have not only been complex and difficult to operate, but also require a lot of time and expertise to collect, transport and analyze samples. An apparatus for continuously monitoring the bay has been developed and commercialized. Already in the high-power transformers of 154kV or more, such a technique is common, and monitoring devices have been developed mainly in the United States, and three to four kinds are commercialized.

In addition, since the number of ground transformers is large and the transformers are small, it is impossible to install and operate a large power insulating oil gas monitoring device, and the price thereof is not realistic at all above the price of the ground transformer.

On the other hand, most diagnostic devices for high power that detect only hydrogen (H ₂ ) gas, which is mainly used as a detection gas, detect only about 50 to 60% of the internal abnormality of the actual transformer due to the internal abnormality of the ground transformer. It was.

In addition, the insulation deterioration diagnostic apparatus which measures the leakage current value by the conductive sludge of the electric insulating oil which has passed through the pore network (Porous Filter) conventionally has a computer value in which the sludge generation which is the source of operation becomes the deterioration index of the electric insulating oil. Considering the fact that the total generation occurs at 0.2 (mgKOH / g) or higher (less than 0.2 in the standard value of computerized management standard in normal oil), it is limited to the evaluation of the deterioration degree of the electric insulating oil itself. Is an impossible device.

Meanwhile, a device for diagnosing an abnormality in the transformer 101 has been proposed as shown in FIG. 3. In the conventional diagnosis apparatus, the sampling valve 102 is connected to the transformer 101, and the sample is collected. The gas extraction section 104 having the membrane diaphragm 103 is installed in the valve 102, and the extraction gas 106 passing through the electrical insulating oil 105 of the gas extraction section 104 is provided by the gas sensor 107. As detected, the controller 108 and the output unit 109 were to check for abnormalities.

However, such a conventional apparatus has a disadvantage in that gas extraction by the membrane diaphragm 103 takes place, so that the gas concentration on both sides of the membrane diaphragm 103 takes several hours or days to equilibrate, and the membrane diaphragm 103 ) Due to deterioration due to prolonged use, the function is degraded, there was a problem that can not be used.

Therefore, the present invention is to develop a low-cost gas transformer detection method and diagnostic device, the gas detection method is to extract the gas dissolved in the insulating oil as in the monitoring device for large power first, and then the gas sensor The method of measuring the gas concentration with the detection device and the method of circulating the insulating oil are common, but the membrane used as the extraction device has a lot of time and technical problems when the gas is extracted and extracted only when a certain pressure exists. It is not recommended to be used in the small-scale, small-scale ground transformers because of the subsequent increase in price.

In order to fundamentally eliminate the above drawbacks, a gas sensor for measuring dissolved gas is directly installed in the upper space of the transformer insulating oil to measure the gas concentration, so that the response to the gas is fast and the diagnostic apparatus can be further miniaturized. It is a way to fundamentally prevent deterioration and deterioration caused by use. However, the concentration of pyrolysis gas of the insulating oil gathered in the upper space of the insulating oil is closely related to the solubility of the insulating oil in the gas, so this should be taken into consideration.

Table 2 Solubility of Gas in Insulating Oil

(Ostwald Solubility Coefficient, 30 ℃, 760㎜Hg, ㎖ / 100mL Oil)

       Gas type solubility H ₂ CO CH ₄ C ₂ H ₂ C ₂ H ₄ C ₂ H ₆ C ₃ H ₈ CO ₂ O ₂ H ₂ Solubility 4.5 82.2 32.9 120 149 221 832 8.4 15.4 6.5

On the other hand, the amount of gas gathered in the insulating oil upper space is to collect the gas of the above solubility shown in Table 2, that is, the gas of the upper space is the gas corresponding to the supersaturation for each gas. There is a method of detecting the concentration of these gases by each gas component and a method of detecting the total amount of gases generated in case of abnormality inside the transformer. However, considering the characteristics of the ground transformer, the latter is selected and is determined by considering the solubility of the table. It is most desirable to set the management criteria and configure the device so that it can be indicated by an alarm when the set value is abnormal. However, the detection of gases in these upper spaces and the determination of abnormalities in the transformer are different from the methods based on the gases dissolved in the existing electrical insulating oil, so the correlation between the abnormalities in the transformer and the dissolved gases in the upper space and insulating oil. In consideration of the relationship, it is important to set it as a criterion for abnormalities inside the transformer.

Therefore, the present invention was invented to solve the conventional problems as described above and to meet various conditions, and when the abnormality inside the transformer is easily detected using a gas sensor having a simple structure, the reaction time for the gas is shortened and The purpose of the present invention is to provide an internal abnormality detection diagnostic device for a ground transformer that can be miniaturized, lowered in price, and contribute to a stable power supply.

The present invention for achieving the above object is an internal abnormality detection diagnostic device for a ground transformer for detecting the pyrolysis gas concentration of the electrical insulating oil generated when the abnormality in the transformer to detect the internal abnormality of the transformer, the insulating oil in the transformer The gas detection unit having a gas sensor is installed in the upper space, and the gas detection unit is connected to a control unit installed outside the transformer and a display unit which informs the outside by an alarm or indicator according to the gas measurement result.

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

1 is a configuration diagram showing a state in which a diagnostic apparatus according to the present invention is installed in a transformer.

The present invention is to detect the thermal decomposition gas concentration of the insulating oil (2) generated when the internal abnormality of the transformer (1) in the internal abnormality detection diagnostic device for a ground transformer for diagnosing the internal abnormality of the transformer (1), the transformer (1) In the upper space (3) of the insulating oil (2) filled in the inside of the c) is provided a gas detector (5) equipped with a gas sensor (4), the gas detector 5 is a control unit installed in the enclosure of the transformer (1) (6) and the display unit 8 which informs the outside by an alarm or the indicator 7 according to the gas measurement result.

As shown in FIG. 2, the control unit 6 connects the communication cable 9 and the data transmission / reception apparatus 10 to monitor the monitor 11 at a long distance.

That is, according to the present invention, the control unit 6 is provided with a gas detector 5 at a suitable position of the upper space 3 of the insulating oil in the transformer 1, and receives and processes an output signal from the gas sensor 4 of the gas detector 5. ) And a display unit 8 which informs the attendant by an alarm or the like according to the gas measurement result.

The present invention does not directly contact the gas sensor 4 to the insulating oil (2) to extend the life of the gas sensor (4), as well as to improve the responsiveness and to easily manufacture the device to minimize the manufacturing cost.

Accordingly, in the present invention, the gas sensor 4 is directly contacted with the trapped gas 12 in the upper space 3 to remove the gas extraction unit and improve the reaction characteristics so that the gas concentration in the electrical insulating oil 2 can be detected within a short time. When the heater is installed to keep the temperature constant in order to compensate for the output characteristics according to the temperature change of the gas sensor 4, the reliability of the measurement result can be further increased.

In addition, the display unit 8 is installed in front of the control unit 6 so that the driver can easily know the state of the transformer 1 in the field, and the display unit 8 is a display indicating the power indicator, normal and abnormal conditions. It is possible to add a function to generate an alarm depending on the lamp 7 and the gas concentration.

In addition, a remote data transmission / reception device 10 using a communication cable 9 may be attached to monitor the monitor 11 so that the transformer manager may directly check the state of the transformer without going directly to the site. In order to monitor the status of large transformers, several sensors can be connected to one control unit.

The present invention removes the gas extraction part which should be an essential device in the transformer for high power, and inserts the gas sensor directly into the upper space of the insulating oil to shorten the reaction time for the gas, as well as to increase the reactivity, especially above the ground transformer The technical challenge is to make the diagnostic device smaller and to realize low cost (1/20 for large power) to contribute to stable power supply.

In addition, by measuring the total amount of gas generated in the transformer abnormality with one gas sensor, it is possible to easily determine whether the transformer abnormality.

1 is a configuration diagram showing a state in which the present invention is installed in a transformer,

Figure 2 is a schematic diagram showing the details of the device configured using the present invention or can be monitored remotely,

3 is a block diagram of a conventional apparatus for detecting abnormality in a high power transformer.

-Explanation of symbols for the main parts of the drawings-

1: transformer, 2: insulating oil,

3: upper space, 4: gas sensor,

5: gas detection unit, 6: control unit,

7: indicator, 8: indicator,

9: communication cable, 10: data transceiver,

11: monitor.

Claims (2)

In the internal abnormality detection diagnostic device for a ground transformer for detecting the concentration of the pyrolysis gas of the insulating oil (2) generated when the abnormality in the transformer (1), the internal abnormality of the transformer (1), A gas detector 5 having a gas sensor 4 is installed in the upper space 3 of the insulating oil 2 filled inside the transformer 1, and the gas detector 5 is an enclosure of the transformer 1. In the ground transformer internal abnormality detection diagnostic device, characterized in that made in connection with the control unit (6) and the display unit (8) to inform the outside by the alarm or indicator (7) according to the gas measurement result. According to claim 1, wherein the control unit 6 is connected to the communication cable (9) and the data transmitting and receiving device 10 as necessary to monitor the inside of the ground transformer, characterized in that it is made so that it can be monitored from a long distance. Detection diagnostic device.