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Method for determining combined insulation thermal resistance of cable and method for calculating current-carrying capacity of cable

A technology of combining insulation and determining methods, applied in the direction of measuring resistance/reactance/impedance, measuring electrical variables, measuring electricity, etc.

Active Publication Date: 2011-07-20
GUANGZHOU POWER SUPPLY BUREAU GUANGDONG POWER GRID CO LTD +1
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Problems solved by technology

In fact, generally high-voltage cables use corrugated metal sheaths, and this part is not a concentric cylinder structure. In addition, the thermal resistance coefficient of XLPE has a great relationship with its operating temperature, especially in the range of operating temperatures between 80 ° C and 120 ° C. XLPE The thermal resistance coefficient is not constant at 3.5K m / W. In addition, the part between the conductor and the metal sheath is not only XLPE insulation, but also includes a buffer zone, a water blocking zone, an air gap, etc., and its thermal resistance coefficient Generally much greater than 3.5K m / W, so the calculation of thermal insulation resistance is inaccurate, and the ampacity of the cable obtained according to thermal insulation resistance is also inaccurate

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  • Method for determining combined insulation thermal resistance of cable and method for calculating current-carrying capacity of cable
  • Method for determining combined insulation thermal resistance of cable and method for calculating current-carrying capacity of cable
  • Method for determining combined insulation thermal resistance of cable and method for calculating current-carrying capacity of cable

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Embodiment Construction

[0023] refer to figure 1 As shown, it is a schematic flow chart of the method for determining the combined insulation thermal resistance of the cable recommended by the present invention when the cable leaves the factory, which includes steps:

[0024] Step S101: set constant current values ​​respectively, and apply the constant current values ​​to the laid cables respectively, and enter step S102;

[0025] Step S102: Measure and record the conductor temperature value and the metal sheath temperature value after the operation state of the cable reaches a steady state, respectively, and enter step S103;

[0026] Step S103: According to each constant current value, conductor temperature value, metal sheath temperature value and the AC resistance value of the cable conductor, calculate and determine the corresponding cable combined insulation thermal resistance value, and enter step S104;

[0027] Step S104: Determine the recommended cable combined insulation thermal resistance...

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Abstract

The invention discloses a concept of combined insulation of a cable, and provides a method for determining the combined insulation thermal resistance of the cable. The combined insulation of the cable comprises every layer between a conductor and a metallic sheath, namely the layers between the conductor and the metallic sheath are regarded as a whole body, different constant current values are applied to the cable in a laying test, and a recommended value for the combined insulation thermal resistance of the cable is determined by combining a constant current value, a resistance value of theconductor and the like according to a conductor temperature value and a metallic sheath temperature value measured under a condition with different constant current values, wherein the recommended value for the combined insulation thermal resistance of the cable is a parameter value obtained by comprehensively considering materials of each layer between the conductor and the metallic sheath, so the recommended value is closer to the actual condition of the insulation thermal resistance of the cable, and the obtained current-carrying capacity of the cable is more accurate when the current-carrying capacity of the cable is deduced and calculated according to the recommended value for the combined insulation thermal resistance of the cable.

Description

technical field [0001] The invention relates to the technical field of power cables, in particular to a method for determining the combined insulation thermal resistance of cables and a method for determining the ampacity of cables. Background technique [0002] In the field of power cable technology, considering the importance of the cable ampacity, the specific performance is that the power design department selects the cable and designs the cable line according to the cable ampacity, and the operation part controls the load of the cable line according to the cable ampacity. Therefore, the accurate calculation and determination of the cable ampacity is particularly important. In the way of calculating the ampacity of cables in the prior art, one of the parameters that needs to be applied is insulation thermal resistance. According to the method given in the IEC60287 standard, the part between the conductor and the metal sheath, including the conductor shield , cross-link...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R27/02G01R31/00
Inventor 王晓兵牛海清汤毅张尧罗真海张泽华
Owner GUANGZHOU POWER SUPPLY BUREAU GUANGDONG POWER GRID CO LTD
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