JP3663079B2 - Cellulose-based material degradation detection method and oil-filled electrical equipment life diagnosis method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for detecting deterioration of a cellulosic material immersed in oil and a method for diagnosing the life of an oil-filled electrical device. For example, in oil-filled electrical devices, the degradation detection of insulating paper immersed in insulating oil, etc. It is effective for.
[0002]
[Prior art]
Diagnosis of the life of oil-filled electrical equipment such as conventional oil-filled transformers and oil-filled reactors is generally estimated by the degree of deterioration of insulating paper immersed in the insulating oil. The degree of deterioration of the insulating paper can be determined from a method of directly measuring the tensile strength, polymerization degree, etc. of the insulating paper itself. As another method, the deterioration of the insulating paper may be judged by an indirect method such as a method for detecting furfural, which is a product generated by the deterioration of the insulating paper, or a method for detecting CO and CO _2. it can. From these determinations, the life of the oil-filled electrical device can be diagnosed.
[0003]
Among the methods, the judgment of the degree of deterioration of the insulating paper from the tensile strength and the degree of polymerization can be made only at the occasion of internal inspection where the insulating paper can be collected from the oil-filled electrical equipment. In this case, the degree of polymerization of the insulating paper and press board used as the structural material of the oil-filled electrical device is directly obtained to diagnose the life of the oil-filled electrical device.
[0004]
Another method is to detect the furfural or CO and CO ₂ that are dissolved in the insulating oil when the insulating paper used in the oil-filled electrical equipment is decomposed due to deterioration and detect the amount of the insulating paper and the insulating oil. Thus, by estimating the degree of polymerization of the press board, the deterioration of the insulating paper is detected and the life of the oil-filled electrical device is diagnosed.
[0005]
Conventionally, in order to analyze a full flora, furfural is extracted from an insulating oil with a methanol solution, and this extract is processed with a centrifuge and measured using a high performance liquid chromatograph. With such a separation and analysis device, the furfural in the insulating oil is quantified, and the life of the oil-filled electrical device is diagnosed. Further, CO and CO ₂ dissolved in insulating oil are analyzed by gas chromatography, and the degree of deterioration of the oil-filled electrical equipment is diagnosed from the total amount.
[0006]
[Problems to be solved by the invention]
In the conventional method for detecting the degree of deterioration of oil-filled electrical equipment, when detecting by the direct method, insulating paper is directly collected and measured. There is a problem that insulating paper cannot be collected without stopping the equipment. Moreover, when detecting by the indirect method, there exists a problem that it takes time from extraction of a full flora to analysis. In addition, the detection of CO and CO ₂ has an extremely low boiling point of −191.5 ° C. and −56.5 ° C., and is affected by slight changes such as when insulating oil is collected and stored, resulting in analysis errors. There is a problem that is likely to occur.
[0007]
The present invention has been made in order to solve the above-described problems. A cellulose-based material deterioration detection method capable of easily and accurately detecting deterioration of a cellulose-based material, and the cellulose. It is an object of the present invention to provide a life diagnosis method for oil-filled electrical equipment using a method for detecting deterioration of materials of a system.
[0008]
[Means for Solving the Problems]
The degradation detection method for a cellulose-based material according to claim 1 of the present invention is a method for detecting the degradation of a cellulose-based material immersed in oil, and obtains a concentration ratio of methyl ethyl ketone and methanol contained in the oil, The degree of polymerization of the cellulosic material is determined from the concentration ratio to detect the degree of degradation of the cellulosic material.
[0009]
According to a second aspect of the present invention, there is provided the method for detecting deterioration of a cellulose-based material according to the first aspect, wherein a bubbling gas is injected into the oil, and the methyl ethyl ketone and methanol in the oil are vaporized together with the bubbling gas. The concentration ratio of methyl ethyl ketone and methanol in the oil is determined by measuring the methyl ethyl ketone and methanol adsorbed on the adsorbent by gas chromatography.
[0010]
The degradation detection method for a cellulose-based material according to claim 3 of the present invention is the method according to claim 2, wherein the temperature of the oil when the bubbling gas is injected is lower than the temperature at which the vapor pressure of the oil becomes 0.01 mHg, And it heats at the temperature higher than 40 degreeC.
[0011]
According to a fourth aspect of the present invention, there is provided the method for detecting deterioration of a cellulose-based material according to the second or third aspect, wherein the methyl ethyl ketone and methanol adsorbed on the adsorbent are mixed with the adsorbent at 100 ° C. or higher and 150 ° C. or lower. And then separated from the adsorbent and measured by gas chromatography.
[0012]
According to a fifth aspect of the present invention, there is provided the method for detecting deterioration of a cellulose material according to any one of the second to fourth aspects, wherein silica gel or activated carbon is used as the adsorbent.
[0013]
According to a sixth aspect of the present invention, there is provided a method for diagnosing the life of an oil-filled electrical device, the method for detecting deterioration of a cellulosic material according to any one of the first to fifth aspects of the invention. It is used to detect deterioration of insulating paper immersed therein, and when it is determined that the insulating paper has deteriorated, it is determined that the function of the oil-filled electrical device has been reduced.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
Embodiments of the present invention will be described below. 1 is a diagram showing the steps of a method for detecting deterioration of a cellulose-based material according to Embodiment 1 of the present invention. In the figure, 1 is an extraction container for extracting a desired substance from oil 2 in which a cellulosic material is immersed, 3 is a heating device for heating this extraction container 1, and 4 is bubbled in oil 2. It is a bubbling gas supply mechanism for feeding gas.
[0015]
5 is an adsorption tube for adsorbing a substance extracted from the oil 2, and is filled with an adsorbent made of silica gel or activated carbon, for example. Reference numeral 6 denotes an analyzer using a gas chromatography method for analyzing the substance adsorbed in the adsorption tube 5, and is, for example, a gas chromatograph mass spectrometer or a gas chromatograph. Reference numeral 7 denotes an attachment jig for attaching the adsorption tube 5 to the analyzer 6, and 8 denotes an adsorption tube heating device for heating the adsorption tube 5.
[0016]
When the cellulosic material immersed in oil deteriorates, methyl ethyl ketone and methanol are produced in the oil. And the inventor discovered that the ratio of methanol became larger than the ratio of methyl ethyl ketone as the deterioration of the cellulosic material progressed. And the relationship of the polymerization degree of the cellulosic material corresponding to the change of the concentration ratio of the methyl ethyl ketone and methanol was able to be calculated | required.
[0017]
This relationship is shown in FIG. The vertical axis represents the concentration ratio of methyl ethyl ketone and methanol, and the horizontal axis represents the degree of polymerization of the cellulosic material. From this, it can be confirmed that the degree of deterioration of the cellulosic material can be determined by analyzing the concentration ratio of methyl ethyl ketone and methanol in the oil.
[0018]
A method for analyzing the concentration ratio of methyl ethyl ketone and methanol in oil will be described with reference to FIG. First, for example, 100 ml of oil 2 in which a cellulosic material is immersed is collected in an extraction container 1. Next, heating is performed so that the temperature of the oil 2 is lower than the temperature at which the vapor pressure of the oil 2 becomes 0.01 mHg and higher than 40 ° C. by the heating device 3. The reason why the vapor pressure of the oil 2 is lower than the temperature at which the pressure becomes 0.01 mHg is that the oil 2 is adsorbed by the adsorbent when the temperature is higher than this, and this adsorbed oil 2 causes an error during analysis. It is the set temperature.
[0019]
Also, the temperature higher than 40 ° C. is to efficiently vaporize methyl ethyl ketone and methanol together with the bubbling gas. If the temperature is lower than that, a detection error occurs between methyl ethyl ketone and methanol. is there. Next, for example, an inert helium gas as a bubbling gas is injected into the oil 2 at 10 ml per minute for 30 minutes.
[0020]
In this manner, methyl ethyl ketone and methanol in the oil 2 are vaporized together with the bubbling gas and adsorbed on the adsorbent. Next, the adsorption tube 5 is attached to the mounting jig 7, and the adsorbent is heated to 100 ° C. or more and 150 ° C. or less by the adsorption tube heating device 8 to separate methyl ethyl ketone and methanol from the adsorbent, thereby analyzing the analyzer 6. Introduce to measure. The temperature of the adsorbent is set to 100 ° C. or more in order to instantaneously separate methyl ethyl ketone and methanol adsorbed on the adsorbent, and if the temperature is lower than that, it takes time to desorb from the adsorbent. The temperature is set because an error is likely to occur in the value.
[0021]
Further, the temperature of the adsorbent is set to 150 ° C. or lower because if it is higher than that, methyl ethyl ketone and methanol may be decomposed, and an error is likely to occur in the analysis value. Then, the degree of polymerization of the cellulosic material can be detected by obtaining the concentration ratio of methyl ethyl ketone and methanol by gas chromatography and collating with FIG. As a result, it is possible to indirectly determine the degree of deterioration of the cellulosic material immersed in the oil.
[0022]
According to Embodiment 1 described above, by obtaining the concentration ratio of methyl ethyl ketone having a high boiling point (boiling point: 79 ° C.) and methanol (boiling point: 64 ° C.) in the oil in which the cellulose-based material is immersed, the cellulose type Therefore, the degree of degradation of the cellulosic material can be determined easily and accurately.
[0023]
If this cellulose-based material deterioration detection method is used for, for example, detecting deterioration of insulating paper immersed in insulating oil of an oil-filled electrical device such as an oil-filled transformer or oil-filled reactor, By simply collecting the insulating oil, the degree of deterioration of the insulating paper can be determined, and the life of the oil-filled electrical device can be determined according to the degree of deterioration. Life diagnosis can be performed.
[0024]
In the first embodiment, an example in which extraction of methyl ethyl ketone and methanol from oil is performed by bubbling extraction is shown. However, the present invention is not limited to this. For example, liquid-liquid extraction method, solid-liquid extraction It is also possible to use an extraction method, a gas-liquid extraction method, or the like.
[0025]
Moreover, although the example used for the lifetime diagnosis of an oil-filled electrical apparatus was shown, it is not restricted to this, It can be used similarly in the thing which wants to know the deterioration degree of the cellulosic material immersed in oil. Needless to say, you can.
[0026]
【The invention's effect】
As described above, according to the first aspect of the present invention, in the method for detecting deterioration of a cellulosic material immersed in oil, the concentration ratio of methyl ethyl ketone and methanol contained in the oil is determined, and the concentration ratio is calculated from the concentration ratio. Since the degree of polymerization of the cellulosic material is determined to detect the degree of deterioration of the cellulosic material, it is possible to provide a method for detecting the deterioration of the cellulosic material that can perform detection with excellent accuracy.
[0027]
According to claim 2 of the present invention, in claim 1, bubbling gas is injected into the oil, and methyl ethyl ketone and methanol in the oil are vaporized together with the bubbling gas and adsorbed on the adsorbent, and adsorbed on the adsorbent. By measuring the methyl ethyl ketone and methanol by gas chromatography, the concentration ratio of methyl ethyl ketone and methanol in the oil is obtained, so that it is possible to provide a degradation detection method for a cellulose-based material that can be easily detected. It becomes possible.
[0028]
According to claim 3 of the present invention, in claim 2, the temperature of the oil at the time of injecting the bubbling gas is lower than the temperature at which the oil vapor pressure becomes 0.01 mHg and higher than 40 ° C. Therefore, it is possible to provide a method for detecting deterioration of a cellulose-based material that can perform detection with higher accuracy.
[0029]
According to a fourth aspect of the present invention, in the second or third aspect, the methyl ethyl ketone and methanol adsorbed on the adsorbent are heated to 100 ° C. or higher and 150 ° C. or lower, and the adsorbent is used. Since it is separated and measured by gas chromatography, it is possible to provide a degradation detection method for a cellulose-based material that can perform detection with higher accuracy.
[0030]
According to claim 5 of the present invention, since the silica gel or activated carbon is used as the adsorbent in any of claims 2 to 4, a cellulose-based material capable of performing detection with higher accuracy. It is possible to provide a method for detecting deterioration.
[0031]
According to a sixth aspect of the present invention, the method for detecting deterioration of a cellulose-based material according to any one of the first to fifth aspects is provided by insulating paper immersed in insulating oil of an oil-filled electrical device. When it is determined that the insulation paper is deteriorated, it is determined that the function of the oil-filled electrical device is reduced. It is possible to provide a life diagnosis method for oil-filled electrical equipment with high accuracy.
[Brief description of the drawings]
FIG. 1 is a diagram showing the steps of a method for detecting deterioration of a cellulose-based material according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing the relationship between the concentration ratio of methyl ethyl ketone and methanol according to Embodiment 1 of the present invention and the degree of polymerization of a cellulosic material.
[Explanation of symbols]
1 extraction container, 2 oil, 3 heating device, 4 bubbling gas supply mechanism,
5 adsorption tube, 6 analyzer, 7 mounting jig, 8 adsorption tube heating device.

Claims (6)

In the method for detecting deterioration of a cellulosic material immersed in oil, the concentration ratio of methyl ethyl ketone and methanol contained in the oil is determined, and the degree of polymerization of the cellulosic material is determined from the concentration ratio. A method for detecting deterioration of a cellulosic material, characterized by detecting the degree of deterioration of the material of the system. By injecting bubbling gas into the oil, vaporizing the methyl ethyl ketone and methanol in the oil together with the bubbling gas and adsorbing them on the adsorbent, and measuring the methyl ethyl ketone and methanol adsorbed on the adsorbent by gas chromatography 2. The method for detecting deterioration of a cellulose-based material according to claim 1, wherein a concentration ratio of methyl ethyl ketone and methanol in the oil is obtained. The cellulose system according to claim 2, wherein the temperature of the oil at the time of bubbling gas injection is heated at a temperature lower than a temperature at which the vapor pressure of the oil becomes 0.01 mHg and higher than 40 ° C. Detection method for deterioration of materials. The methyl ethyl ketone and methanol adsorbed on the adsorbent are heated to 100 ° C. or more and 150 ° C. or less, separated from the adsorbent, and measured by gas chromatography. The degradation detection method of the cellulose-type material of description. The method for detecting deterioration of a cellulose-based material according to any one of claims 2 to 4, wherein silica gel or activated carbon is used as the adsorbent. The method for detecting deterioration of a cellulose-based material according to any one of claims 1 to 5 is used to detect deterioration of insulating paper immersed in insulating oil of an oil-filled electrical device, and the insulating paper is deteriorated. If it is determined that the function of the oil-filled electrical device is reduced, the life diagnosis method for the oil-filled electrical device is determined.

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