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High resistance ground fault detection method based on flexible DC distribution network

A high-resistance grounding fault, flexible DC power distribution technology, applied in the fault location, detecting faults according to conductor types, measuring electricity, etc. High detection accuracy, convenient application, and the effect of improving calculation speed

Inactive Publication Date: 2021-09-07
HENAN POLYTECHNIC UNIV +1
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  • Claims
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Problems solved by technology

[0006] 1) High-resistance fault feature extraction: The fixed basis function leads to insufficient feature characterization; the feature extraction process is not adaptive. Although the EMD algorithm is adaptive, it is prone to problems such as mode aliasing and endpoint effects; unclear meaning
[0007] 2) High-impedance fault detection criterion: the start-up criterion of the existing HIF detection method is not sensitive, and the distribution network system is misjudged to be in a normal state; the start-up criterion and the discrimination criterion are not constructed separately, resulting in low HIF detection accuracy ; Computationally complex, and most criterion constructions have no physical meaning

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  • High resistance ground fault detection method based on flexible DC distribution network
  • High resistance ground fault detection method based on flexible DC distribution network
  • High resistance ground fault detection method based on flexible DC distribution network

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Embodiment Construction

[0084] A method for detecting a high-impedance grounding fault in a flexible DC distribution network according to the present invention, the specific content of an embodiment is as follows:

[0085] 1 Zero-mode current extraction of flexible DC distribution network

[0086] Such as figure 1 As shown in the two-terminal DC power distribution system based on a voltage source converter (VSC), the present invention adopts a DC side grounding method, and uses a clamping resistor on the DC side to lead out the zero point, and grounds through a high resistance. The common feature of these grounding methods is small current grounding. When a single-stage grounding fault occurs on the DC line, the fault current does not have a return to the ground, and the DC line current is still at the rated value; is 0, the voltage of the non-grounded pole becomes twice the original, but the voltage difference between the two poles remains unchanged, and the control system can still keep running; ...

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Abstract

The invention discloses a method for detecting a high-resistance grounding fault in a flexible direct current distribution network. First, the characteristic mode IMF is extracted by using a complementary set empirical mode decomposition algorithm for the transient zero-mode current 1 components, and the IMF 1 Perform the first-order difference operation to obtain the abrupt singular point, calculate the cumulative slope sum near the singular point, and compare the slope sum value with the start-up threshold to distinguish the fault state from the normal state; then, use the Prony algorithm to analyze the IMF 1 Parameter identification of components to obtain IMF 1 The characteristic frequency component and the DC component in the component, and then calculate the energy ratio of the characteristic frequency component and the DC component, and further distinguish different states through the difference in the value of the energy ratio. Compared with the existing methods, the present invention can adapt to accurate feature extraction under strong noise environment, and the feature extraction process has self-adaptability, convenient application, high detection accuracy, can keenly determine the operating state of the distribution network system, and simultaneously improves the calculation speed.

Description

technical field [0001] The invention belongs to the technical field of power grid fault detection, and in particular relates to a high-resistance grounding fault detection method of a flexible DC distribution network. Background technique [0002] Recently, the number of DC loads is increasing day by day. When using the traditional AC power distribution system to realize the consumption of distributed energy and the power supply of DC loads, a large number of power electronic converter equipment is required, and the investment cost is greatly increased. On the contrary, if the consumption of distributed energy and the power supply of DC loads are carried out through the DC power distribution system, a large amount of converter equipment can be saved and investment costs can be reduced. In addition to the advantages in terms of economy, compared with the traditional AC power distribution system, the advantages of the DC power distribution system are also reflected in: improvi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/08G01R31/52G01R31/58
CPCG01R31/086G01R31/50
Inventor 王晓卫曾志辉王鹏韦延方胡治国王小丽宋振江
Owner HENAN POLYTECHNIC UNIV
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