Real-time digital simulation model for multi-infeed direct current power transmission system

A technology of real-time digital simulation and DC transmission system, which is applied in general control systems, control/regulation systems, simulators, etc., and can solve problems such as simultaneous faults of multiple DC circuits

Inactive Publication Date: 2013-02-27
SHANGHAI MUNICIPAL ELECTRIC POWER CO +2
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Problems solved by technology

[0002] At present, the East China Power Grid presents the obvious characteristics of multi-infeed DC and large receiving-end power grids. However, the area of ​​East China is small, the grid structure is compact, and the electrical distance between multiple DC circuits is relatively short. After the AC system fails, multiple DC circuits are likely to fail at the same time. Multiple DC faults and their recovery process will have a greater impact on the AC system. This inte

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  • Real-time digital simulation model for multi-infeed direct current power transmission system
  • Real-time digital simulation model for multi-infeed direct current power transmission system

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Embodiment

[0017] Such as figure 1 and figure 2 As shown, the real-time digital simulation model of the multi-infeed direct current transmission system includes multiple parallel equivalent ultra-high voltage direct current transmission systems, and the ultra-high voltage direct current transmission system includes a real-time digital simulation model of the primary system and a real-time digital simulation model of the secondary system The real-time digital simulation model of the primary system includes a converter station 1 and a DC transmission line 2, and the converter station 1 is arranged at both ends of the DC transmission line 2; the real-time digital simulation model of the secondary system includes a converter station control system and protection system, the control system and protection system of the converter station are connected with the converter station, and are used to control and protect the operation of the converter station. In this embodiment, the rated voltage o...

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Abstract

The invention relates to a real-time digital simulation model for a multi-infeed direct current power transmission system. The real-time digital simulation model comprises a plurality of equivalent super-voltage direct current power transmission systems which are connected in parallel, wherein the super-voltage direct current power transmission systems comprise a primary system real-time digital simulation model and a secondary system real-time digital simulation model; the primary system real-time digital simulation model comprises a convertor station and a direct current power transmission circuit, wherein the convertor station is arranged on the two ends of the direct current power transmission circuit; the secondary system real-time digital simulation model comprises a convertor station control system and a protective system, wherein the convertor station control system and the protective system are connected with the convertor system, and are used for controlling and protecting the operation of the convertor station. The operation of the convertor station is controlled and protected by the convertor station control system and the protective system, so that a plurality of direct current simultaneous faults and a plurality of direct current faults which are easily caused by alternating current system fault are avoided, and the impact to the alternating current system in a fault recovery process is avoided.

Description

technical field [0001] The invention relates to an electric power simulation model, in particular to a real-time digital simulation model of a multi-feed direct current transmission system. Background technique [0002] At present, the East China Power Grid presents the obvious characteristics of multi-infeed DC and large receiving-end power grids. However, the area of ​​East China is small, the grid structure is compact, and the electrical distance between multiple DC circuits is relatively short. After the AC system fails, multiple DC circuits are likely to fail at the same time. Multiple DC faults and their recovery process will have a greater impact on the AC system. This interaction between AC and DC poses a huge challenge to the safe operation of the receiving power grid. At the same time, with the UHV AC interconnection among major regional power grids, the receiving end power grid in East China will show new characteristics of AC-DC hybrid transmission, and the scope...

Claims

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Application Information

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IPC IPC(8): G05B17/02
Inventor 崔勇郭强
Owner SHANGHAI MUNICIPAL ELECTRIC POWER CO
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