JP2530987B2 - Oil immersion power cable - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a long oil-filled cable (hereinafter referred to as O
(Referred to as “F cable”).

[0002]

2. Description of the Related Art FIG. 1 is a sectional view showing an example of an OF cable.

Inside the lead sheath 7, a hollow spiral tube 2, a conductor portion 3 composed of a plurality of wires, carbon paper 4, insulating paper 5 and carbon paper 6 are concentrically arranged from the center side. The inside of the hollow spiral tube 2 serves as the oil passage 1. The sheath 7 is filled with hydrocarbon-based insulating oil, and a pressure higher than atmospheric pressure is applied to this insulating oil from a hydraulic device communicating with the oil passage 1. Further, on the outer side of the sheath 7, a polyethylene layer 8, an exterior (cushion layer 9 made of polypropylene yarn + iron wire exterior 10) and a serving 11 are laminated and provided.

The hollow spiral tube 2 is formed by spirally forming a metal wire. With such a shape, insulating oil can easily pass through the hollow spiral tube 2 and good bendability can be obtained. it can. Further, the carbon paper 4 arranged on the outer side of the conductor portion 3 has an action of preventing a rapid change of the electric field.

As the insulating paper 5, kraft paper and semi-synthetic paper are usually used. As the sheath 7, an aluminum corrugated tube may be used in addition to the lead sheath. Further, as the hydrocarbon-based insulating oil, mineral oil-based insulating oil or alkylbenzene-based insulating oil is usually used in consideration of insulating properties, viscosity and temperature characteristics.

In this OF cable, voids are generated in the insulator (that is, insulating paper impregnated with insulating oil) by constantly applying a pressure of atmospheric pressure or higher to the insulating oil filled in the sheath 7. Can be avoided. Therefore, this OF cable has excellent voltage stability and is widely used as a high-voltage power cable.

[0007]

However, although the above-mentioned conventional OF cable has sufficient performance in a normal use condition, when it is used as a long seabed cable laid on the deep seafloor, for example, There is a problem to show.

[0008] That is, when it is used as a long seabed cable, it is difficult to install a hydraulic device on the way, so a low-viscosity insulating oil is used to suppress a decrease in pressure in the cable, and a long distance is used. It is necessary to maintain a predetermined hydraulic pressure over the entire range. However, in the conventional OF cable, although the insulating oil having a relatively low viscosity is used, it is not sufficient and it is difficult to maintain a predetermined hydraulic pressure over a long distance.
Therefore, it is desired to use insulating oil having a lower viscosity.

Further, when the cable is damaged on the seabed where there is a difference in height, the conventional OF cable has a large difference in density between the insulating oil and the seawater, which increases the amount of oil leakage into the sea.
Not preferable for environmental measures. That is, the density of seawater (d = 1.03g / cm) is as much as possible for the power cable laid on the seabed.
It is preferable to use high-density insulating oil close to ³ ).

Further, in the cable laid on the deep sea bottom, there is a drawback that it is difficult to design the exterior for hydraulic pressure resistance due to the difference in density between seawater and insulating oil. In other words, in the OF cable laid on the deep sea floor, the oil pressure P (kg / cm ² ) to be applied from the ground portion is the density of seawater dw (g / cm ³ ) and the density of insulating oil d ₀ (g / cm ³ ). cm ³ ), the depth to the seabed is D
Assuming that (m), it is represented by the following Equation 1.

[0011]

## EQU1 ## P = (dw-d ₀ ) × (D / 10)

Therefore, in the mineral oil type insulating oil or the alkylbenzene type insulating oil used in the conventional OF cable,
Due to its low density (0.86 to 0.90 g / cm ³ ), for example, when it is laid on the seabed with a depth of 2000 m, the hydraulic pressure P to be applied from the ground portion is as high as 20 to 30 kg / cm ³ The exterior design for hydraulic pressure becomes difficult. From this point as well, the use of high-density insulating oil close to the density of seawater is desired.

The present invention has been made in view of the above problems, and is particularly suitable as an oil-immersed power cable laid on the seabed, and the hydraulic pressure in the cable can be appropriately maintained over a long distance and the exterior It is an object of the present invention to provide an oil-immersed power cable which is easy to design and has a small amount of oil leakage even when the cable is damaged.

[0014]

Oil immersion power cable according to the present invention, in order to solve the problems], to place the insulating material around the conductor in the oil immersion power cable impregnated with insulating oil in the insulating material, the insulating oil dibenzyl Toluene, its isomers and their mixtures
It is characterized by being a hydrocarbon insulating oil selected from the group consisting of products or a mixture thereof.

[0015]

The present inventors have conducted various experimental studies in order to obtain an insulating oil having a low viscosity and a high density as compared with the insulating oil used in the conventional OF cable and having a good insulating property. It was As a result, they have found that alkyldiphenylmethane (ADM) has a high density and a low viscosity, and has an excellent insulating property, and is extremely suitable as an insulating oil to be filled in an oil-immersed power cable. The present invention has been made based on such experimental results.

Examples of the ADM include dibenzyltoluene and the like, which may be a mixture of meta, para and ortho isomers. This ADM has a density of about 1.00 g / cm ³ (15
℃) and the viscosity is 2.5 cSt (40 ℃). On the other hand, alkylbenzene conventionally used as insulating oil for OF cables has a density of 0.870 g / cm ³ (15 ° C) and a viscosity of 9.0 cSt (40 ° C). Thus, the ADM
Higher density and lower viscosity than conventional insulating oil for OF cables. In addition, ADM has substantially the same flash point, pour point, gas absorbability, and electrical characteristics of oil as compared with mineral oil-based insulating oil and alkylbenzene-based insulating oil used in conventional OF cables, Very suitable for OF cable.

The insulating oil used to impregnate the insulating material is ADM
May be used alone, or a mixture of ADM and another hydrocarbon low viscosity insulating oil may be used. For example, Class 1 No. 1 oil, Class 2 No. 1 oil, Class 2 No. 3 oil, Class 4 No. 1 oil, Class 5 oil or Class 7 No. 1 specified in JIS C-2320 as a grade with excellent electrical characteristics. A mixed oil obtained by mixing oil and the like and ADM may be filled in the cable as insulating oil. In this case, the higher the mixing ratio of ADM, the lower viscosity and high density insulating oil can be obtained.

In the oil-immersed power cable according to the present invention, the insulating oil having such a property is impregnated in the insulating material and is arranged around the conductor portion, so that the hydraulic pressure in the cable is appropriately maintained over a long distance. In addition, the exterior design is easy, and even if the cable is damaged, there is little leakage of insulating oil, making it extremely suitable as a power cable laid on the seabed.

[0019]

EXAMPLES Next, examples of the present invention will be described in comparison with comparative examples that depart from the claims of the present application.

By a conventional method, deionized water-washed kraft paper or a PP laminated paper in which polyolefin and paper are compounded around a conductor portion having a cross-sectional area of 1000 mm ² (PP fraction 50%)
Was wound to a thickness of 19 mm to manufacture an OF cable having the structure shown in FIG.

Table 1 below shows the densities and viscosities of the insulating oils used in Examples and Comparative Examples. Table 2 below shows the configurations of the OF cables according to these Examples and Comparative Examples.

[0022]

[Table 1]

[0023]

[Table 2]

For each OF cable of these examples and comparative examples, alternating current (AC) and impulse (Imp) breakdown voltage and dielectric loss tangent (tan δ) were measured. The results are shown in Table 3 below.

[0025]

[Table 3]

As is clear from Table 3, the OF cables of Examples 1 to 6 have the same electrical characteristics as the OF cable of the comparative example (conventional). In addition, Examples 1 to 6
Since the OF cable has a low viscosity of insulating oil as shown in Table 1, the hydraulic pressure in the cable can be appropriately maintained over a long distance. Furthermore, in Examples 1 to 6, the density of insulating oil is higher than that of the comparative example, so that the exterior design is easy and the amount of oil leakage into seawater is small even when damaged in the sea. Play.

In the above embodiment, the case where kraft paper and PP laminated paper are used as the insulating paper has been described, but it goes without saying that the type of insulating paper is not limited to this. Further, the present invention is not limited to the AC power cable, but can be applied to the DC power cable.

[0028]

As described above, in the oil-immersed power cable according to the present invention, the insulating oil impregnated with the insulating material and arranged around the conductor portion is a hydrocarbon-based insulating oil in which alkyldiphenylmethane or alkyldiphenylmethane is mixed. Therefore, the hydraulic pressure in the cable can be appropriately maintained over a long distance, the exterior design can be facilitated, and the leakage amount of insulating oil is small even when the cable is damaged in seawater. Therefore, the oil-immersed power cable according to the present invention is extremely suitable as a power cable laid on the seabed.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an example of an oil-immersed power cable.

[Explanation of symbols]

 1; Oil passage 2; Hollow spiral tube 3; Conductor part 4, 6; Carbon paper 5; Insulating paper 7; Sheath 8; Polyethylene layer 9; Cushion layer 10; Iron wire exterior 11; Serving

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kazuo Yokota 3-3-22 Nakanoshima, Kita-ku, Osaka City, Osaka Prefecture Kansai Electric Power Co., Inc. (72) Inventor Takaaki Matsuura 1-5-1, Kiba, Koto-ku, Tokyo Fujikura Co., Ltd. (56) Reference JP-A-4-190512 (JP, A)

Claims (1)

(57) [Claims] 1. An oil-immersed power cable in which an insulating material is arranged around a conductor and the insulating material is impregnated with insulating oil, wherein the insulating oil is dibenzyltoluene, its isomers, and their isomers.
An oil-immersed power cable, which is selected from the group consisting of a mixture or a hydrocarbon-based insulating oil mixed with the same.