Multi-factor combined aging experiment method for bushing main insulation
An experimental method and main insulation technology, applied in the testing of machine/structural components, measuring devices, instruments, etc., can solve the problems of low moisture efficiency, accelerated aging rate of capacitor cores, severe temperature rise, etc.
Active Publication Date: 2017-11-07
SOUTHWEST JIAOTONG UNIV
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Problems solved by technology
During the operation of the main insulation of the traction transformer bushing, many factors such as heat, mechanical stress, and moisture intrusion force its insulation state to deteriorate continuously, and the aging products further accelerate the aging rate of the capacitor core
In addition, the load of the traction transformer bushing has strong impact characteristics. Compared with the traditional bushing, although the average load borne by the traction transformer bushing is low during operation, it has the characteristics of large short-term load and severe temperature rise when overloaded.
[0003] The aging process of the main insulation of the bushing by the traditional aging device, the simulated aging process is also relatively simple, which cannot fully reflect the complex and harsh operating conditions of the traction transformer bushing, and the damp treatment usually treats the bushing as a whole , damp inefficiency
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[0021] Below in conjunction with accompanying drawing and specific implementation process, the present invention will be further described:
[0022] figure 1 It is the flow chart of the multi-factor joint aging method for the main insulation of the traction transformer bushing; figure 2 Shown is the multi-factor joint aging system for the main insulation of the traction transformer bushing; figure 1 It can be seen that the multi-factor joint aging method for the main insulation of the impact traction transformer bushing includes the following steps:
[0023] The first step: build the test system
[0024] Build a traction transformer bushing main insulation multi-factor joint aging system, mainly composed of capacitor core (3), insulating oil tank (8), impulse current generator (20), humidifier (17), ultrasonic transducer (11), Composed of a heating wire (6) and ancillary devices, the micro-water sensor (5) is evenly arranged in the gap between the capacitor core (3) and th...
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The invention discloses a multi-factor combined aging experiment method for bushing main insulation. An experiment system is firstly built, and a capacitor core (3) is subjected to wetting treatment and insulation oil (7) is heated; thermal aging- and mechanical vibration-aging treatment is then carried out on the capacitor core (3), impact load is applied to the capacitor core (3) after the wetting process is over, the moisture-distribution state of an outer insulation layer of the capacitor core (3) is recorded, the degree of polymerization DP(t) at the time after the thermal aging process of the capacitor core (3) is over is calculated, and the aging state is evaluated. Based on the aging method, the moisture distribution and diffusion state of a traction transformer bushing under a harsh environment and impact load can be simulated, the experiment efficiency is greatly improved, and great significance is realized for study on the aging mechanism of the traction transformer bushing main insulation and evaluation on the wetting state of the traction transformer aged bushing.
Description
technical field [0001] The invention relates to the technical field of life research and diagnosis of electric equipment, in particular to an experimental method for multi-factor combined aging of the main insulation of bushings. Background technique [0002] With the rapid development of the rail transit industry, the reliability of traction power supply equipment has become an important factor restricting the further development of the industry. The high-voltage bushing is the main accessory device of the traction transformer, and the main insulation is the capacitor core. Its deterioration has an important impact on the traction transformer and even the entire power supply system. During the operation of the main insulation of the traction transformer bushing, many factors such as heat, mechanical stress, and moisture intrusion force its insulation state to continuously deteriorate, and the aging products further accelerate the aging rate of the capacitor core. In additi...
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IPC IPC(8): G01R31/12G01M7/02
CPCG01M7/00G01R31/12
Inventor 周利军刘伟迪王东阳郭蕾廖维
Owner SOUTHWEST JIAOTONG UNIV
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