VSC alternating current fault ride-through method and device of extra-high voltage hybrid multi-terminal direct current system

A multi-terminal DC and fault ride-through technology, applied in the direction of power transmission AC network, information technology support system, etc., can solve the problems of reduced firing angle, limited output current capability, rising DC voltage, etc., to increase the firing angle and suppress faults Current, the effect of preventing further surge of DC voltage

Active Publication Date: 2019-11-22
ELECTRIC POWER RESEARCH INSTITUTE, CHINA SOUTHERN POWER GRID CO LTD +1
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, there is no operation experience of this kind of hybrid DC system at present, which leads to many problems in actual operation. For example, when an AC fault occurs on the VSC side of the receiving end, the AC voltage drops and the DC side power cannot be sent. At this time, the DC side It will continue to charge the capacitor of the sub-module, which will cause the DC voltage to rise; the firing angle of the rectifier side will decrease rapidly, and when it reaches the minimum firing angle limit, it will lose the ability to adjust the DC voltage. If no appropriate control measures are taken at this time, The DC voltage will continue to soar; and the faulty VSC station is in an AC fault and has limited output current capability, so the ability to rely solely on VSC to discharge energy to avoid overvoltage is extremely limited, especially in the mixed operation mode of both ends

Method used

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  • VSC alternating current fault ride-through method and device of extra-high voltage hybrid multi-terminal direct current system
  • VSC alternating current fault ride-through method and device of extra-high voltage hybrid multi-terminal direct current system
  • VSC alternating current fault ride-through method and device of extra-high voltage hybrid multi-terminal direct current system

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Embodiment Construction

[0048] The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

[0049] Please refer to figure 1 , the first embodiment of the present invention provides a VSC AC fault ride-through method for an UHV hybrid multi-terminal DC system, including:

[0050] S11: According to the detected AC voltage of the receiving terminal VSC, determine whether the receiving terminal VSC has an AC fault;

[0051] It should be noted that the UHV hybrid multi-terminal DC transmission system is a three-terminal DC system, such as figure 2 As s...

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Abstract

The invention discloses VSC alternating current fault ride-through method and device of an extra-high voltage hybrid multi-terminal direct current system. The method comprises the following steps: determining whether a receiving end VSC has an alternating current fault or not according to an alternating current voltage of the receiving end VSC, and generating a fault signal and enabling an alternating current low-voltage current limiting link, a direct current modulation link and a positive and negative sequence current control link of the receiving end VSC with the fault when the receiving end VSC has the alternating current fault; sending the fault signal to a rectifier station and a non-fault inverter station, controlling the rectifier station to enter a DC voltage control mode, and controlling the non-fault inverter station to perform short-time power increasing operation; after the alternating current fault is removed, the faulted receiving end VSC is recovered to the normal working state, and a fault removing signal is generated; sending the fault clearing signal to a rectifier station and a non-fault inverter station, and recovering the rectifier station and the non-fault inverter station to a normal working state so as to recover the direct-current power of the extra-high voltage hybrid multi-terminal direct-current system; the method can improve the ride-through and recovery characteristics when an AC fault occurs at the inversion side, and improves the operation safety of the system.

Description

technical field [0001] The invention relates to the technical field of high-voltage direct current transmission, in particular to a VSC AC fault ride-through method and device for an ultra-high voltage hybrid multi-terminal direct current system. Background technique [0002] In the conventional DC transmission system, the inverter side is the LCC converter. When the AC voltage drops, the commutation failure is very likely to occur, which brings serious stability problems to the AC-DC system. When there are multiple DC drop in the same AC grid At this point, the stability problem is more prominent. The hybrid multi-terminal DC transmission system using LCC on the rectifier side and VSC on the inverter side does not have the problem of commutation failure, and is especially suitable for multi-drop DC applications, which is the trend of future power system development. [0003] However, there is no operation experience of this kind of hybrid DC system at present, which leads ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/36
CPCH02J3/36Y02E60/60Y04S10/52
Inventor 李桂源黄伟煌曹润彬李婧靓聂少雄彭发喜李岩许树楷韦甜柳王海军甘宗跃
Owner ELECTRIC POWER RESEARCH INSTITUTE, CHINA SOUTHERN POWER GRID CO LTD
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