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Method for using dynamic analog device for graded controllable parallel reactors

A dynamic simulation and transformer-type technology, applied in the direction of output power conversion device, electrical components, AC power input conversion to AC power output, etc., can solve the problem that the controllable shunt reactor device cannot be protected by the controllable shunt reactor device body The line protection inspection and testing work, unchangeable and other issues

Active Publication Date: 2013-02-06
CHINA ELECTRIC POWER RES INST
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Problems solved by technology

[0004] Patent 200620132038.5 is a fixed-capacity shunt reactor simulation device. Once its capacity is set, it cannot be changed during operation. This device cannot be used for the protection of the controllable shunt reactor device body and the line protection with a controllable shunt reactor device. inspection and testing work

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  • Method for using dynamic analog device for graded controllable parallel reactors
  • Method for using dynamic analog device for graded controllable parallel reactors
  • Method for using dynamic analog device for graded controllable parallel reactors

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Embodiment Construction

[0047] figure 1 It is a dynamic simulation wiring diagram of ultra-high voltage and ultra-high voltage transformer graded controllable shunt reactors.

[0048] 1. According to the simulation capacity ratio of the 500kV, 750kV, 1000kV dynamic simulation system of the dynamic simulation laboratory of the State Grid Simulation Center, the parameter design of the dynamic simulation device of the super- and ultra-high voltage transformer-type graded controllable shunt reactor is carried out. See the table below for details.

[0049]

[0050] 2. Study and determine the simulation test method for connecting the dynamic simulation device of super- and ultra-high voltage transformer-type graded controllable shunt reactors with dynamic simulation systems of different voltage levels.

[0051] (1) Build a dynamic simulation system consisting of simulated transmission lines, simulated transformers, simulated generators, simulated power supplies, and simulated loads according to specific...

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Abstract

The invention provides a dynamic analog system for ultrahigh-voltage transformer type graded controllable parallel reactors, which is designed to accurately simulate a dynamic analog device for transformer type graded controllable parallel reactors with different capacities in 500 kV, 750 kV and 1000 kV power transmission systems. The primary side of the analog device body is in a single-phase discrete type, and three phases are connected to form a Y shape; and a primary winding is provided with 12 turn-to-turn fault taps which can respectively simulate 1-25% of turn-to-turn faults from the high-voltage side to the neutral point side. The secondary side of the analog device body is in a single-phase closed connection way, and the tail end is directly grounded. The capacities are divided into 9 grades: 100%, 75%, 62.5%, 56.25%, 46.875%, 37.5%, 31.25%, 18.75% and 15.625%. The primary side and the secondary side of the analog device body are respectively provided with a current transformer and a voltage transformer, thereby being capable of satisfying the demands for reactor body protection in a dynamic analog test. Aiming at the body protection on the ultrahigh-voltage controllable parallel reactors and the line protection on installation of the controllable parallel reactors, the invention provides a dynamic analog test method.

Description

technical field [0001] The invention relates to a method of a dynamic simulation device using super- and extra-high-voltage transformer-type graded controllable shunt reactors, and belongs to the field of dynamic simulation systems for power systems of various voltage levels. Background technique [0002] The controllable shunt reactor can automatically adjust its own capacity with the change of transmission power of the line, and can reduce the overvoltage level of the line operation and improve the operating efficiency of the power grid; respond quickly to the dynamic stability caused by the system disturbance, suppress voltage fluctuations, and improve System stability, increase power transmission capacity, and suppress system power oscillation. The application of controllable shunt reactors in EHV and UHV transmission systems has become one of the development directions of power systems. The Dynamic Model Laboratory of the State Grid Simulation Center, in order to furth...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P13/00
Inventor 李仲青周泽昕陈柏超田翠华杜丁香周春霞张晓莉李岩军王珏
Owner CHINA ELECTRIC POWER RES INST
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