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A Protection Method for MMC DC Transmission Lines Based on Voltage Correlation

A DC transmission line and voltage correlation technology, applied to emergency protection circuit devices, electrical components, etc., can solve the problems of effectively identifying high-resistance ground faults, high-resistance ground faults cannot be effectively identified, etc., and achieve good quickness Effect

Active Publication Date: 2021-05-11
KUNMING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Moreover, the existing protection methods for DC transmission lines also have many deficiencies. For example, high-resistance ground faults cannot be effectively identified, and effective identification of high-resistance ground faults has always been a difficult problem in the field of power system relay protection.

Method used

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  • A Protection Method for MMC DC Transmission Lines Based on Voltage Correlation
  • A Protection Method for MMC DC Transmission Lines Based on Voltage Correlation
  • A Protection Method for MMC DC Transmission Lines Based on Voltage Correlation

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] Example 1: Establish as attached figure 2 The MMC HVDC transmission system shown is used as a simulation model. The winding on the valve side of the connecting transformer adopts a delta connection without a neutral point, and the AC side of the connecting transformer adopts a star connection, and its neutral point is directly grounded. The DC side is grounded through the clamping resistor, which has a large resistance value. Its main function is to clamp the two-pole voltage and provide a potential reference point for the DC system during normal operation. The DC voltage is ±320kV, the transmission line is 400km, and the transmission active power is 1169MW. It is assumed that a metal short circuit fault occurs at the 260km of the positive line.

[0025] (1) After the failure of the MMC DC transmission system, the positive and negative pole voltages (sampling window is 3ms) measured at the protection installation place are measured, and the correlation coefficient r=0...

Embodiment 2

[0027] Example 2: Establish as attached figure 2 The MMC HVDC transmission system shown is used as a simulation model. The winding on the valve side of the connecting transformer adopts a delta connection without a neutral point, and the AC side of the connecting transformer adopts a star connection, and its neutral point is directly grounded. The DC side is grounded through the clamping resistor, which has a large resistance value. Its main function is to clamp the two-pole voltage and provide a potential reference point for the DC system during normal operation. The DC voltage is ±320kV, the transmission line is 400km, and the transmission active power is 1169MW. It is assumed that a two-pole short circuit fault occurs at 320km of the line, and the transition resistance is 300Ω.

[0028] (1) After the failure of the MMC DC transmission system, the positive and negative pole voltages measured at the protective installation (sampling window is 3ms) are measured, and the corr...

Embodiment 3

[0033] Example 3: Establish as attached figure 2 The MMC HVDC transmission system shown is used as a simulation model. The winding on the valve side of the connecting transformer adopts a delta connection without a neutral point, and the AC side of the connecting transformer adopts a star connection, and its neutral point is directly grounded. The DC side is grounded through the clamping resistor, which has a large resistance value. Its main function is to clamp the two-pole voltage and provide a potential reference point for the DC system during normal operation. The DC voltage is ±320kV, the transmission line is 400km, and the transmission active power is 1169MW. It is assumed that a three-phase short-circuit fault of the AC system occurs on the rectification side.

[0034] (1) After the failure of the MMC DC transmission system, the positive and negative pole voltages measured at the protective installation (sampling window is 3ms) are measured, and the correlation coeffi...

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Abstract

The invention relates to a voltage correlation-based MMC DC transmission line protection method, which belongs to the technical field of electric power system relay protection. When a DC transmission line fails, first collect the positive and negative pole voltages at both ends of the line to obtain the correlation coefficient, and then use the correlation coefficient to judge the unipolar ground fault. If the judgment result is a non-unipolar ground fault, then calculate the inter-pole voltage. And obtain the rate of change of the voltage between the poles, and finally use the rate of change of the voltage to judge whether it is a short circuit between the two poles. The invention has a strong ability to withstand transition resistance, the data window is only 3ms, the quick action is good, and the application prospect is strong.

Description

technical field [0001] The invention relates to a voltage correlation-based MMC DC transmission line protection method, which belongs to the technical field of electric power system relay protection. Background technique [0002] Compared with traditional DC, the flexible DC transmission technology based on MMC (modular multilevel converter) has many advantages, such as no reactive power compensation problem, no commutation failure problem, and power supply for passive systems, etc. It has become a research hotspot today. At present, there are few researches on MMC DC transmission line protection. Since the topology structure of the MMC basic unit and the working principle of the sub-modules are very different from those of the traditional DC transmission line, the protection method of the DC transmission line can refer to the protection method of the traditional DC transmission line, but not all of them are applicable to the protection of the traditional DC transmission li...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02H7/26
CPCH02H7/268
Inventor 安娜束洪春
Owner KUNMING UNIV OF SCI & TECH