Laboratory icing simulating test method of optical power ground wires (OPGWs)

A laboratory simulation and overhead ground wire technology, which is applied in the field of laboratory simulation ice coating test of special optical fiber cable and optical fiber composite overhead ground wire, can solve the problems of unsatisfactory requirements, undiscovered optical cable technical indicators and requirements, no established test environment and Methods and other issues

Active Publication Date: 2010-10-13
CHINA ELECTRIC POWER RES INST +1
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  • Abstract
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Problems solved by technology

The performance changes of optical fiber composite overhead ground wire (OPGW) before and after icing (especially re-icing), potential hidden dangers, and their great impact on the operation of optical cable lines have not been reported in detail at home and abroad, especially for optical fiber composite overhead ground wires. The application of OPGW in the power system is more and more extensive. The product performance testing of OPGW in general areas has included many aspects such as geometric dimensions, transmission performance, mechanical performance, environmental performance, electrical performance, etc. It has been fully able to pass these

Method used

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  • Laboratory icing simulating test method of optical power ground wires (OPGWs)
  • Laboratory icing simulating test method of optical power ground wires (OPGWs)
  • Laboratory icing simulating test method of optical power ground wires (OPGWs)

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Embodiment Construction

[0041] Firstly, using the spray freezing method in the icing laboratory, the icing test was carried out on the OPGW, and the ice weight data of different thicknesses of ice in nature were simulated and compared, and compared with the theoretical calculation.

[0042] Icing calculated value and actual value verification:

[0043] (1) Weighing the uniced OPGW

[0044] A fiber optic cable sample with a length of 120 cm is weighed, and the weight is 795 g.

[0045] (2) Weighing the ice-coated OPGW

[0046] A fiber optic cable with a length of 120 cm and an ice-covered length of 90 cm is weighed, and the weight is 1580 g.

[0047] (3) Measure the diameter of OPGW and the outer diameter after ice coating

[0048] The diameter of the OPGW measured by a caliper is 15.2mm, and the outer diameter after ice coating is 37mm.

[0049] (4) Ice weight of OPGW icing

[0050] The ice weight of the OPGW covered with ice is equal to the total weight of the optical fiber cable with a length ...

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Abstract

The invention belongs to the technical field of power system communication, relating to a laboratory icing simulating test method of optical power ground wires (OPGWs), which can simulate and test the performance changes of running lines in various icing thicknesses states in a laboratory. The method carries out an experimental comparative study on the electrical properties, the communication andthe mechanical properties of the OPGWs under an icing condition by utilizing a laboratory icing simulating test system, mainly carries out the experimental studies on lightning resistance, short-circuit current, attenuation, tensile strength, stress strain and the like on the OPGWs with different structures, types, technical parameters, materials and the like and then determines a comprehensive solution on resistance of the OPGWs on icing disasters through analyzing test data.

Description

technical field [0001] The invention belongs to the technical field of electric power system communication, and in particular relates to a laboratory simulation ice coating test method for a special electric power optical fiber composite overhead ground wire (OPGW). Background technique [0002] From January to early February 2008, most parts of southern my country experienced continuous large-scale catastrophic ice and snow weather. This rain, snow and freezing weather process has a wide range of influence, high intensity, long duration, wide coverage and great harm. , In many areas, it happens once every 50 years, and in some areas, it happens once every 100 years, which is rare in history, and has seriously affected the transportation, electricity, communications and people's lives in these areas. The freezing disaster especially caused great harm to the power grids in Southwest my country, Central China, and East China, and the power grids in Hunan, Zhejiang, and Jiangxi ...

Claims

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Application Information

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IPC IPC(8): G01R31/00G01N3/08
Inventor 戚力彦陈希赵大平
Owner CHINA ELECTRIC POWER RES INST
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