A method and system for rapid longitudinal protection of high-voltage direct current lines
A technology of longitudinal protection and high-voltage direct current, applied in emergency protection circuit devices, emergency protection data processing devices, emergency protection devices with automatic disconnection, etc., can solve the problem of insufficient quickness of longitudinal protection and strict synchronization of double-ended data and other problems to achieve the effect of saving fault identification time, quickly identifying faults, and reducing data communication traffic
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Embodiment 1
[0048] A high-voltage direct current transmission system based on a fast longitudinal protection method for high-voltage direct current lines such as figure 1 shown. figure 1 A typical HVDC system is shown along with fault points closely related to HVDC line protection (only the positive line is shown due to bipolar symmetry). Among them: MMC1 station is used as a rectifier station, and MMC2 station is used as an inverter station. figure 1Among them, the current-limiting reactor is used as the boundary element between the converter station and the line; F_in1, F_in2, and F_in3 are the fault points in the DC line; F_out1 and F_out2 are the fault points outside the valve side of the boundary element. Generally, protection measuring points M are installed at the beginning and end of the line respectively. 1 , M 2 , to detect a DC fault and initiate the fault clearing process.
[0049] A method for fast longitudinal protection of a high-voltage direct current line specifically...
Embodiment 2
[0095] This embodiment provides a high-voltage DC line fast longitudinal protection system, including:
[0096] The starting unit starts the protection when the criterion is met.
[0097] The component calculation module uses the pole-line voltage and pole-line current measured by the protection measuring point to calculate the convolution power sequence, and calculates the average value of the convolution power. After the communication between the measuring points is completed, the average value of the convolution power on both sides of the line is calculated. Difference.
[0098] The fault identification and fault pole selection unit in the zone uses the average difference of the convolution power on both sides of the line to identify faults in the zone and perform fault pole selection.
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