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Method for evaluating influence of direct-current power grid topology on fault current

A fault current and DC power grid technology, applied in the direction of protection, electrical components, circuit devices, etc. that respond to fault currents, can solve the problems that have not proposed the impact of fault current, and have not deeply discussed the impact of fault current on topology structure and topology parameters, Unable to obtain the explicit expression of the fault current, etc.

Active Publication Date: 2021-11-02
SICHUAN UNIV
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Problems solved by technology

[0005] Specifically, the multi-terminal true bipolar system equivalent circuit is established as in prior art 1, [References: Y.Li, J.Li, L.Xiong, X.Zhang and Z.Xu, "DC fault detection in meshed MTdc systems based on transient average value of current,"IEEE Trans.Ind.Electron.,vol.67,no.3,pp.1932-1943,Mar.2020.], its shortcoming is only for double-ended converter station DC transmission system, Not suitable for topology studies
[0006] Such as prior art 2 state space equation calculation method of fault current [reference 1: C.Li, C.Zhao, J.Xu, Y.Ji, F.Zhang and T.An, "A pole-to-pole short- circuit fault current calculation method for dc grids,"IEEE Trans.Power Syst.,vol.32,no.6,pp.4943-4953,Nov.2017; Reference 2: Lanxi Tang, Xinzhou Dong. MMC DC Transmission Grid Line Short Circuit Approximate calculation method of fault current [J]. Chinese Journal of Electrical Engineering, 2019, 39(02): 490-498+646.], its shortcoming is that only time-domain numerical results can be obtained and no explicit expression of fault current can be obtained formula, making it difficult to analyze the influencing factors of the fault current
[0007] Existing technology 3 analyzes the variation of various characteristic quantities of unipolar faults under the grounding mode of metal return lines, [References: Zhu Taoyan, Hou Yuanwen, Wang Chao, Chen Weihua. Operation mode of unipolar metal return lines in direct current transmission systems Research on ground fault and protection of lower line[J]. Power System Protection and Control, 2009,37(20):133-138] Its shortcomings do not deeply discuss the influence of topology structure and topology parameters on fault current, and do not propose to evaluate the impact of topology on fault current. Indicators of current influence

Method used

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Embodiment 1

[0103] Embodiment 1: A chain-type DC grid, as shown in Figure 10(a). It should be mentioned that Fig. 10(a) is a schematic diagram of a chain-link DC grid showing the connection of the converter stations. Therefore, no DC line appears. Line parameters, and the configuration of the converter station is shown in Table 1.

Embodiment 2

[0104] Example 2: In order to further verify the theory, a case study was carried out in a five-terminal grid DC power grid. The schematic diagram of the DC ring network is shown in Figure 10(b), and the configuration of the converter station is shown in Table 1. The pole-to-earth fault occurred on the line connecting converter stations 1 and 5.

[0105] Table 1 embodiment system parameters

[0106]

[0107] Verification scheme 1: Verification of topology impact mechanism indicators

[0108] It is defined here that when k is less than or equal to 3, it is considered that the single-pole grounding short-circuit fault of the DC grid is only determined by the near-end converter station and the second-near-end converter station. In actual engineering, k is about 1 when the earth return line is used; k is about 3 when the metal return line is used. Therefore, the unipolar ground fault current is mainly affected by the near-end converter station and the secondary near-end conve...

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Abstract

The invention discloses a method for evaluating the influence of direct-current power grid topology on fault current. The method comprises the steps that firstly, an equivalent circuit of a grounding mode of a metal return wire and a ground return wire is established, and a three-dimensional mesh circuit diagram decoupling method is provided, so that the equivalent circuit is planarized; an improved high-frequency equivalent model is provided, fault current calculation methods are deduced for a radial network and a ring network respectively, the theory is popularized to an n-end network, and then the influence of topological parameters and structures on fault currents is analyzed; an evaluation index k of the influence of the topology on the fault current is provided, and the influence of the initial fault current level of the power grid topology can be effectively evaluated; the k value determines which converter stations mainly come from in the initial stage of the single-pole short-circuit fault current of the direct-current power grid. According to the evaluation method provided by the invention, tedious calculation is avoided, and the influence of topology on the fault current can be directly and quickly evaluated.

Description

technical field [0001] The invention relates to the technical field of DC grid topology and fault current evaluation, in particular to a method for evaluating the influence of DC grid topology on fault current. Background technique [0002] Multi-terminal flexible DC grid has become a research hotspot due to its advantages of low harmonics, high reliability, and easy expansion. In actual engineering, single-pole ground fault events occur most frequently. After a unipolar ground fault occurs in a true bipolar system, the sub-module discharges rapidly and injects a large amount of surge current into the fault point. The outlet voltage of the converter station drops rapidly, and the bridge arm current and line current rise sharply, seriously threatening the safe and stable operation of the power grid. . Therefore, it is of great significance to study the influence mechanism of topology on unipolar fault current and the influence of topology parameters on fault current for pow...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H7/26H02H3/16H02H1/00
CPCH02H7/268H02H3/16H02H1/0092
Inventor 彭乔张文馨张英敏李保宏刘天琪
Owner SICHUAN UNIV
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