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Using flexible multi-state switches to create active circulation to realize the method of melting ice in distribution network

A multi-state, distribution network technology, applied to the installation of electrical components, cables, overhead lines/cable equipment, etc., can solve the problem of limited length of ice-melting lines, low ice-melting efficiency, outage operations and complicated short-circuit procedures and other problems, to achieve the effect of fast response and continuous control

Active Publication Date: 2020-07-28
GUIZHOU POWER GRID CO LTD
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0003] The technical problem to be solved by the present invention is to provide a method of using a flexible multi-state switch to create active circulation to realize the ice melting method of the distribution network, so as to solve the problem of complicated line outage operation and short-circuiting procedures for the ice melting of transmission lines in the prior art. Technical problems such as low ice efficiency and limited length of ice-melting lines

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  • Using flexible multi-state switches to create active circulation to realize the method of melting ice in distribution network
  • Using flexible multi-state switches to create active circulation to realize the method of melting ice in distribution network

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Embodiment Construction

[0023] The feeder in the distribution network uses high-power power electronic equipment to realize flexible interconnection at both ends or multiple terminals. The flexible multi-state switchgear has multiple control modes. The specific steps for overcurrent ice melting based on active circulating current are as follows:

[0024] (1) Determine the target line for ice melting;

[0025] (2) Reconfigure the distribution network through the distribution network contact switch, and reconstruct the ice-melting target line into the "ice-melting ring network path". "Ice-melting ring network path" includes three parts, namely, the ice-melting target line, the non-ice-melting contact line and the flexible multi-state switch. the maximum load current.

[0026] (3) Set the working mode of the flexible multi-state switch. The flexible multi-state switch on the side of the ice-melting target line works in the PQ mode, and the side of the non-ice-melting contact line works in the DC consta...

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Abstract

The invention discloses a method for realizing ice melting in a distribution network by making an active ring current with flexible multi-state switches. The method comprises: selecting an ice-meltingtarget line; reconstructing a distribution network through a distribution network communication switch and reconstructing the ice-melting target line into an ice-melting ring network path; setting working modes of flexible multi-state switches; to be specific, setting a flexible multi-state switch at the ice-melting target line side to work in a PQ mode and a flexible multi-state switch at a non-ice-melting communication line side to work in a direct-current constant-voltage control mode; and calculating an active power P of the ice-melting line based on an ice-melting current needed by the ice-melting target line, using the P as an active power reference value of the flexible multi-state switch at the side, starting the flexible multi-state switches at the two sides, and adjusting voltage phases of the flexible multi-state switches, and generating an active power flow in positive correlation with a phase difference value. Therefore, problems of complicated line outage operation and the short-circuiting procedures melting efficiency and the limited length of the ice-melting line during the ice melting of the transmission line in the prior art can be solved.

Description

technical field [0001] The invention belongs to the deicing technology of power transmission lines, in particular to a method for deicing a distribution network by using a flexible multi-state switch to produce active circulation. Background technique [0002] At present, the most effective deicing methods for the distribution network are DC deicing, operating mode deicing and AC short-circuit deicing with transformers. The above deicing methods are relatively limited in the deicing range of distribution network lines. Among them, the DC icing of the distribution line needs to stop the transmission line, the line outage operation and short-circuiting procedures are complicated, and the icing efficiency is not high. The icing operation mode is affected by the line load and can only be carried out on some lines, with a transformer for AC Short-circuit melting ice needs to stop the transportation line, and the opposite side needs to manually short-circuit the line. Second, the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02G1/02H02G7/16
CPCH02G1/02H02G7/16
Inventor 班国邦谢百明谈竹奎马晓红
Owner GUIZHOU POWER GRID CO LTD
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