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Novel positive sequence impedance differential protection method of microgrid

A positive-sequence impedance and differential protection technology, which is applied in the direction of automatic disconnection emergency protection devices, emergency protection circuit devices, electrical components, etc., to achieve rapid detection and isolation, high reliability and sensitivity, and easy engineering application effects

Active Publication Date: 2016-07-27
ZAOZHUANG POWER SUPPLY COMPANY OF STATE GRID SHANDONG ELECTRIC POWER +2
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Problems solved by technology

The method of the present invention fully considers the impact of the through current and large transition resistance on fault detection during faults, and effectively solves the complex network structure and variable operating status of the microgrid without the aid of synchronous signal acquisition and fault components The problems brought about by microgrid protection ensure the selectivity and reliability of protection

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  • Novel positive sequence impedance differential protection method of microgrid
  • Novel positive sequence impedance differential protection method of microgrid
  • Novel positive sequence impedance differential protection method of microgrid

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Embodiment Construction

[0047] The present invention is described in detail below in conjunction with accompanying drawing:

[0048] A novel microgrid positive sequence impedance differential protection method, such as Figure 5 shown, including:

[0049] Install three-phase current transformers on both sides of the main feeder lines of each section of the microgrid, and install three-phase voltage transformers at the busbars to collect three-phase currents and three-phase voltages in real time;

[0050] Use the instantaneous value mutation to determine the start time of the fault; store the fault data of one cycle after the fault starts, use the symmetrical component method to obtain the positive sequence current and positive sequence voltage, and then obtain the measured positive sequence impedance for both sides of the protection;

[0051] The protection on both sides of the positive-sequence impedance differential protection zone exchanges positive-sequence impedance information through optical ...

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Abstract

The invention discloses a novel positive sequence impedance differential protection method of a microgrid. The method comprises the following steps of acquiring a three-phase current and a three-phase voltage in real time, and further calculating positive sequence impedance at a protection installation position; carrying out calculation of action impedance and braking impedance; judging whether a differential protection region is a fault section or not by a local-side protection device after receiving positive sequence impedance information of an opposite side of the differential protection region through a communication network; and additionally arranging a phase-comparison distance component in a detection blind region subjected to the positive sequence impedance differential protection for identifying a three-phase metal fault. The method can be suitably used for two running states of grid connection and island of the microgrid, the influence of through current and large transition resistance on fault detection during a fault is fully considered, moreover, the method is implemented without the assistance of synchronous signal acquisition and a fault component, the complicated network structure of the microgrid and the problem brought to microgrid protection by variable running states are effectively solved, and the protection selectivity and reliability are ensured.

Description

technical field [0001] The invention relates to the technical field of electric power system relay protection, in particular to a positive-sequence impedance differential protection method suitable for the operating characteristics of a micro-grid. Background technique [0002] The complex network structure and flexible operation characteristics of the microgrid make it difficult for the traditional distribution network protection to operate correctly, and even the direct application of the transmission network protection with superior protection performance to the microgrid also faces challenges. The operation mode of the microgrid is flexible and changeable, and there are obvious differences in the amount of fault electricity under different operation modes. In the island operation state, the amplitude of the short-circuit current is obviously smaller than that in the grid-connected state. It is difficult to guarantee the protection according to the setting principle of the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H7/26H02H3/34
CPCH02H3/343H02H7/262
Inventor 陈宁王传勇邹贵彬徐萌韩蓬张健王坤杨凤文康文文代二刚孙宝峰
Owner ZAOZHUANG POWER SUPPLY COMPANY OF STATE GRID SHANDONG ELECTRIC POWER
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