Large generator partial discharge on-line monitoring anti-interference method

Abstract

The invention relates to a large generator partial discharge on-line monitoring anti-interference method, comprising the steps of: 1) installing a VHF capacitive sensor at the three-phase outlet busbar of a generator, installing a high-frequency current sensor on a neutral grounding line, and connecting the VHF capacitive sensor and the high-frequency current sensor to a partial discharge monitoring device through high-frequency coaxial lines; 2) using an analog partial discharge pulse generator to input the discharge pulses into different positions, starting a monitoring host to transmit a command to the partial discharge monitoring device, synchronously acquiring all sensor signals, finding out the corresponding pulse of the high-frequency current sensor channel at the same time according to the pulse of a VHF capacitive sensor channel, and determining the position of a pulse discharge source by the pulse polarities of the two signals. The method can filter out the various pulse interferences transmitted from the grounding line direction and the high-voltage busbar direction, in particular various random impulse interferences which are the most difficult to filter out.

Description

technical field [0001] The invention belongs to the technical field of insulation monitoring of large generators, in particular to an anti-interference method for on-line partial discharge monitoring of on-line generators. Background technique [0002] There are mainly the following methods for large-scale generator insulation monitoring: Ultrasonic sensor detection method. Ultrasonic sensors are pasted on the surface of the generator with a frequency range of 10kHz to 10MHz. The purpose of generator insulation monitoring; radio frequency sensor monitoring method, a microstrip radio frequency antenna is built near the stator slot inside the generator as a sensing device to couple electromagnetic wave signals in the partial discharge space, and its frequency range is 10MHz to 1GHz. It must be installed when the generator is produced; the high-frequency current sensor method is to clamp the high-frequency current sensor on the neutral point grounding line of the generator to c...

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Problems solved by technology

The advantage of the ultrasonic method is that it is easy to install, and the discharge point can be located through multiple measuring points. The disadvantage is that the generator itself has a large vibration noise, and the ultrasonic interference is relatively serious, resulting in a high rate of misjudgment. The advantage of the radio frequency sensor monitoring method is that the detection frequency band High, high signal-to-noise ratio, suitable for on-line monitoring, the disadvantage is that it needs to be built in in advance, and it has a certain impact on the insulation performance of the generator itself, and it cannot be detected for the generator that has been running; the advantage of the high-frequency current sensor method is that it is easy to install and does not Changing the wiring of the generator, no electrical connection with the generator, does not affect the normal operation of the generator at all, the low frequency ...

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