SVM-Based Fault Identification Method for Modular Multilevel HVDC Transmission System

A modular multi-level, direct current transmission system technology, applied in the direction of measuring electricity, measuring electrical variables, instruments, etc., can solve problems such as difficult identification, difficult type and location of system faults, and large fault hazards

Active Publication Date: 2020-10-27
STATE GRID HUBEI ELECTRIC POWER RES INST +2
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Problems solved by technology

However, if the current MMC-HVDC system in my country operates under abnormal working conditions or the system fails, it is difficult to accurately determine the fault type and location of the system due to the characteristics of the fault itself, which is harmful, complex, and difficult to identify.
[0004] At present, in the aspect of fault identification of MMC-HVDC system, it is mainly to analyze the basic principle of MMC-HVDC system, typical fault characteristics, MMC sub-module fault identification, DC fault identification and construct corresponding protection and control strategy from the perspective of electrical mechanism. The research to realize fault identification is almost still in the blank

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  • SVM-Based Fault Identification Method for Modular Multilevel HVDC Transmission System
  • SVM-Based Fault Identification Method for Modular Multilevel HVDC Transmission System
  • SVM-Based Fault Identification Method for Modular Multilevel HVDC Transmission System

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[0041] (1) Collect the eigenvalues ​​of the training system from the PSCAD simulation, including the three-phase AC voltage amplitude V am ,V bm ,V cm , DC voltage max V dcma x and minimum V dcmin , three-phase AC current positive peak value and negative peak value I amax+ , I bmax+ , I cmax+ , I amax- , I bmax- , I cmax- and the maximum value of DC current I dcmax and minimum I dcmin ;

[0042] (2) When the three-phase system is balanced, the peak values ​​of the three-phase AC currents in the positive and negative directions should be consistent. If the peak values ​​are inconsistent, it indicates that the three-phase system is unbalanced. Therefore, the fault judgment criterion is when |I amax- -I bmax- |and|I amax- -I cmax- When | is less than 0.1, it is classified as the first type of fault type, when |I amax- -I bmax- |or|I amax- -Ic max- |When it is greater than or equal to 0.1, it is classified as the second type of fault type, and the two fault types...

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Abstract

The invention provides a modular multi-level DC power transmission system fault identification method based on a support vector machine. The method is suitable for fault identification of a modular multi-level DC power transmission system. According to the method of the invention, characteristic values of a training sample are acquired, and the characteristic values are classified to a three-phasebalance fault and an imbalance fault; a corresponding fault identification model is established; then the characteristic valve of the to-be-identified power system is acquired; after fault type dividing, normalization processing is performed in a corresponding fault identification model; and finally the fault type of the system is identified through a method of the support vector machine, and thefault type is output. Actual verification results show a fact that the fault type which is identified according to the fault identification model is same with the actual fault type and low identification time is realized; quick, accurate and high-efficiency technology support can be supplied for fault testing of the modular multi-level DC power transmission system.

Description

technical field [0001] The invention relates to the field of flexible direct current transmission, in particular to a support vector machine-based fault identification method for a modular multilevel direct current transmission system. Background technique [0002] Due to its unique advantages, Modular Multilevel Converter Based High Voltage Direct Current (MMC-HVDC) has become a development trend in the field of voltage source converter HVDC transmission. [0003] During the actual operation of MMC-HVDC, many factors will cause the voltage imbalance of the AC system. From the perspective of the DC side, the single-pole ground fault increases the ground voltage of the DC non-fault pole and the phase voltage of the AC side of the converter station; the single-pole ground fault will cause serious overcurrent phenomena in the bridge arm of the converter station; Pole disconnection faults will lead to a large DC voltage change rate in the rectifier station, causing severe DC ov...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/00
CPCG01R31/00
Inventor 胡伟黄萌雷杨刘浴霜宿磊苏昊
Owner STATE GRID HUBEI ELECTRIC POWER RES INST
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