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A Fault Handling Method for Receiving AC Side of Hybrid DC Transmission System

A technology for DC transmission system, AC side fault, applied in the direction of power transmission AC network, electrical components, emergency protection circuit devices, etc. Effect

Inactive Publication Date: 2018-08-17
NR ELECTRIC CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] However, when the AC grid connected to the voltage source converter on the inverter side (receiving end) of the hybrid DC transmission system suffers a serious fault, the AC voltage drops severely, and the power output of the inverter side converter on the AC side is severely limited. However, the rectifier side converter still delivers DC power to the inverter side according to the established power reference value. At this time, the input power of the DC side of the voltage source converter on the inverter side is much greater than the output power of the AC side, and the power difference leads to voltage source conversion. The internal energy storage element of the inverter - the capacitor is severely overvoltage. At the same time, because the DC side voltage of the voltage source converter is the sum of the voltages of several internal capacitors, severe overvoltage will also occur

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  • A Fault Handling Method for Receiving AC Side of Hybrid DC Transmission System
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  • A Fault Handling Method for Receiving AC Side of Hybrid DC Transmission System

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[0032] The technical scheme of the present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments, so that those skilled in the art can better understand the present invention and implement it, but the examples given are not intended to limit the present invention.

[0033] Such as figure 1 As shown, the hybrid DC transmission system includes a rectifier converter station connected to the AC grid at the sending end and an inverter converter station connected to the AC grid at the receiving end. The rectifier converter station is connected to the inverter converter station through a DC transmission line. The rectification converter station includes a converter transformer, a converter unit and a smoothing reactor, and the converter unit is connected to the AC grid at the sending end through a converter transformer; the inverter converter station includes a converter transformer, a converter unit and a smoothing ...

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Abstract

This invention discloses a method for handling failure of alternating current side of invertor side of mixed-type direct current transmission system. The method is characterized by comprising the following steps: steps1, detect whether a serious failure is happened in an alternating current network of the invertor side; if so, enter the step 2; the serious failure means that the failure happened in the network of the invertor side makes the positive sequence voltage of the connection part of an inversion converter station and the alternating current network less than 0.6 time of a rated voltage; step2, shift the phase of a rectification converter station to an inversion state; in other words, adjust the trigger angle of a converter valve of a thyristor of the rectifier side to be greater than 90 degrees; and step 3, the voltage source type converter of the inversion converter station triggers a single-phase valve in three phases to run straightly and simultaneously locks the other two phases of valves. By adoption of this method, the mixed-type direct current transmission system can safely and reliably pass through the serious failure of the alternating current network of the invertor side; the overvoltage of the inner capacitor of the voltage source type converter and the overvoltage of the direct current side can be limited; and after the failure of alternating current network is cleared, the mixed-type direct current transmission system can be resumed quickly and steadily.

Description

technical field [0001] The invention relates to a fault handling method for a receiving end AC side of a hybrid direct current transmission system. Background technique [0002] HVDC transmission systems can be divided into two types: conventional DC transmission systems (LCC-HVDC) based on thyristor technology and flexible-HVDC systems based on fully controlled power electronic device technology (Flexible-HVDC), both of which have advantages and disadvantages , so the hybrid DC transmission system combining conventional DC transmission and flexible DC transmission will have engineering application prospects. It has the advantages of low conventional DC transmission loss, mature operation technology and flexible DC transmission can supply power to passive networks without commutation failure. The advantages. [0003] However, when the AC grid connected to the voltage source converter on the inverter side (receiving end) of the hybrid DC transmission system suffers a serious...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02H7/26H02J3/36
CPCY02E60/60
Inventor 柏传军赵文强汪楠楠杨建民
Owner NR ELECTRIC CO LTD
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