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A Remanence Evaluation Method and System Based on Variable Area Integral of Voltage Decay Process

A technology of voltage attenuation and residual magnetism, applied in the direction of testing dielectric strength, etc., can solve the problems of poor practicability and direct measurement

Active Publication Date: 2020-12-22
STATE GRID SICHUAN ELECTRIC POWER CORP ELECTRIC POWER RES INST +3
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Calculation models widely used in academia include Preisach model, Product model, and Stoner-Wohlfarth model, etc., but the above models all involve some parameters that cannot be directly measured, and their practicability is poor

Method used

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  • A Remanence Evaluation Method and System Based on Variable Area Integral of Voltage Decay Process
  • A Remanence Evaluation Method and System Based on Variable Area Integral of Voltage Decay Process
  • A Remanence Evaluation Method and System Based on Variable Area Integral of Voltage Decay Process

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Experimental program
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Embodiment 1

[0052] Such as Figure 1~5 As shown, a residual magnetism evaluation method based on the variable area integration of the voltage decay process is characterized in that the method includes the following steps: S1: by detecting the moment of sudden change in the voltage at the transformer port, determine the breaking moment of the transformer bay circuit breaker; S2: The breaking time of the transformer interval circuit breaker is the starting point. By selecting the integral interval, the voltage at the iron core terminal is integrated to calculate the residual magnetism of the transformer iron core; The side voltage reconstructs the primary side voltage, and the CVT output voltage can be reverse-processed through its transfer function, and the voltage waveform is reconstructed before being used for remanence estimation.

[0053] In actual operation, when the transformer is disconnected or some preventive tests are performed on the transformer, due to the hysteresis characteri...

Embodiment 2

[0060] Such as Figure 6-10 As shown, this embodiment is specifically enumerated on the basis of Embodiment 1. In this section, this method is applied to the network debugging site, and the simulation verification is carried out for the operation of the air-charging main transformer in rural and urban stations. The topology of the test grid is as follows Figure 6 As shown, the power grid load is about 35MW, and the output of each power plant and the main transformer parameters in rural and urban areas are shown in Table 1 and Table 2: Table 1 The output of related power plants

[0061] power plant Electric field A Electric field B Electric field C Electric field D Electric field E Output / MW 60 60 12 16 60 power plant Electric field F Electric field G Electric field H Electric field I Electric field J Output / MW 150 120 114 120 21

[0062] Table 1 Output of relevant power plants

[0063] Capacity (MVA) Wind...

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Abstract

The invention discloses a region-variable integration residual magnetism evaluating method based on a voltage attenuation process. The region-variable integration residual magnetism evaluating methodis characterized by comprising the following steps that S1, by detecting the voltage jump moment of a transformer port, the on-off moment of a transformer interval breaker is determined; S2, the on-off moment of the transformer interval breaker serves as the starting point, by selecting an integrating range, core terminal voltage is integrated, and the transformer core residual magnetism is calculated; S3, external disturbance generated during integration is denoised, primary-side voltage is reconstructed for secondary-side voltage passing through a voltage transformer, CVT output voltage canbe subjected to transfer function backward processing, and the residual magnetism is evaluated after voltage waveform reconstruction. During actual operation, when a transformer is switched on or off,or the transformer is subjected to some preventive tests, because a transformer core has the hysteresis characteristic, magnetic flow can remain in the core, that is the transformer residual magnetism is generated. Under general conditions, once the residual magnetism is generated, the residual magnetism can exist in the core for a long time but cannot disappear naturally.

Description

technical field [0001] The invention relates to a voltage attenuation evaluation method, in particular to a residual magnetism evaluation method and system based on variable area integration of the voltage attenuation process. Background technique [0002] Due to the hysteresis characteristic of the iron core of a power transformer, the iron core often retains residual magnetism during the transformer removal process. As a result, excitation inrush currents will be generated when the transformer is switched on without load, which will endanger the safety of equipment and systems, and even cause power outages and grid failures. Related studies have found that figure 1 As shown, the greater the residual magnetism of the iron core after the transformer is removed, the stronger the excitation inrush current generated when the switch is switched on, and the more serious the overvoltage phenomenon. Accurate residual magnetism evaluation plays a very important role in formulating...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/12
CPCG01R31/12
Inventor 魏巍刘莹梅生伟丁理杰陈颖
Owner STATE GRID SICHUAN ELECTRIC POWER CORP ELECTRIC POWER RES INST
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