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Transverter direct current side fault current suppression method based on additional virtual inductance coefficient

A Technology of Virtual Inductance and Fault Current

Active Publication Date: 2019-05-21
NORTHEAST DIANLI UNIVERSITY +1
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Problems solved by technology

However, compared with the half-bridge sub-module, the number and loss of power electronic devices of this type of sub-module have increased, and the economy largely limits their application in practical engineering.
So far, for the DC side fault of the converter, the fault current suppression methods adopted still rely on changing the topology of the sub-modules and adding external current limiting devices to limit the fault current. These current limiting measures all have on-state Due to the high loss and the additional shortcomings of the control system, there is no practice of limiting the fault current of the MMC converter by changing the control measures after the converter fails

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  • Transverter direct current side fault current suppression method based on additional virtual inductance coefficient
  • Transverter direct current side fault current suppression method based on additional virtual inductance coefficient
  • Transverter direct current side fault current suppression method based on additional virtual inductance coefficient

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Embodiment Construction

[0029] The detailed content and specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0030] See Figure 1 to Figure 7 As shown, the method for suppressing the fault current on the DC side of the converter based on the additional virtual inductance of the present invention solves the method for suppressing the short-circuit current of the flexible DC grid. First, it proposes the impact of the partial removal of the sub-module on the AC system after the converter outlet short-circuit fault The calculation method comprehensively considers the current capacity of the IGBT device and the breaking capacity of the DC circuit breaker, and proposes a method to suppress the short-circuit fault current of the DC side of the converter which reduces the input ratio of the sub-modules after the fault. The virtual inductance is mapped into the control system to adaptively change the fault and then the sub-module input rati...

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Abstract

The invention relates to a transverter direct current side fault current suppression method based on additional virtual inductance coefficient, belonging to the technical field of flexible direct current power transmission. Firstly, a calculation method of influence of partially cutting a submodule after short circuit fault of a transverter outlet on an alternating current system is put forward, discharge current capacity of an IGBT device and breaking capacity of a direct current breaker are considered comprehensively, a suppression method of transverter direct current side short circuit fault current is put forward, wherein the suppression method can reduce investment proportion of the submodule after fault happens, meanwhile, a fault current suppression method of changing investment proportion of the submodule after fault through mapping the virtual inductance coefficient into a control system is also put forward, and a setting method of the virtual inductance coefficient is also provided. The method, applied to a MMC transverter, can effectively reduce rising rate of the fault current, reduce overcurrent stress of the direct current breaker which cuts off the fault device, andhas good economic efficiency and practicability in comparison with a method of performing fault current suppression through an additional current limiting device.

Description

Technical field [0001] The invention relates to the technical field of flexible direct current transmission, in particular to a method for suppressing a DC fault current of an MMC converter, in particular to a method for suppressing a fault current on the DC side of the converter based on an additional virtual inductance coefficient. Background technique [0002] In 2001, German scholars R. Marquardt and A. Lesnicar proposed modular multilevel converter (MMC), which promoted the development of high voltage direct current transmission (HVDC) technology. So far, domestic MMC-HVDC projects that have been put into operation include: Shanghai Nanhui Demonstration Project, Nanao Project, Zhoushan Project, Xiamen Project, etc. These projects all use cables for power transmission, but compared with overhead lines, the cables are expensive and the faults are mostly permanent, which is not convenient for inspection and maintenance. Therefore, it is a trend of the future development of the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H9/02
Inventor 辛业春李国庆杨勇王拓王振浩江守其王朝斌王威儒
Owner NORTHEAST DIANLI UNIVERSITY
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