66kv side structure of compact 500kv main transformer

A 66kv, compact technology, applied in substations, non-enclosed substations, closed substations, etc., can solve the problems of occupying land area, large area, and large area, so as to reduce the occupied area and reduce the occupied area The effect of saving area and land occupation

Inactive Publication Date: 2012-07-11
HENNAN ELECTRIC POWER SURVEY & DESIGN INST +5
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0014] The shortcomings of conventional dry resistance are also obvious. Its size is relatively large, and it must meet the magnetic shielding distance between them. It is generally arranged in a "shaped" or "shaped" and occupies a large area, such as image 3 , Figure 4 , Figure 5 and Image 6 As shown in the figure, the dotted line box of the reactor indicates the magnetic shielding distance
[0015] Conventional capacitor complete sets are arranged in separate phases in substations, resulting in a large footprint, such as Figure 7 , Figure 8 shown
In the figure, each phase reactor is installed on a tower, and each phase reactor is divided into two sections. This arrangement occupies a large amount of land area

Method used

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  • 66kv side structure of compact 500kv main transformer
  • 66kv side structure of compact 500kv main transformer
  • 66kv side structure of compact 500kv main transformer

Examples

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Effect test

Embodiment 1

[0072] Such as Figure 9 As shown, the present invention includes A, B, and C three-phase transformers 1, three-phase transformer 1 is connected to the total circuit 3 through the Δ bus 2, the total circuit 3 is connected to the 66kv bus 4 and the switch branch circuit 11, and the 66kv bus 4 and the switch branch circuit 11 Each branch circuit 5 is connected, and the above-mentioned branch circuit includes a capacitance branch circuit 6 and a reactance branch circuit 7 . The capacitance branch circuit 6 includes a parallel capacitor bank 8 and a series reactor 9 connected to the parallel capacitor bank 8 ; the reactance branch circuit 7 includes a three-phase reactor 10 . In order to realize the compact design, the present invention uses SF6 gas insulated bus GIB for the △ bus 2 to complete the △ winding; the main circuit 3, 66kv bus and switch branch circuit 11 adopt a compact fully enclosed electrical appliance GIS. In the capacitance branch circuit 6, the A, B, and C three...

Embodiment 2

[0088] The difference between this embodiment and Embodiment 1 is that in the reactance branch circuit 7 of this embodiment, as Figure 11 As shown, the stacked dry-type shunt air-core reactor refers to: A, B, and C three-phase reactors are stacked up and down, and insulating columns are set between adjacent two-phase reactors.

Embodiment 3

[0090] The difference between this embodiment and Embodiment 1 and Embodiment 2 is that in the reactance branch circuit 7 of this embodiment, a magnetically shielded shunt reactor is used.

[0091] Such as Figure 14 --As shown in 17, this embodiment includes reactors connected in parallel with three phases A, B, and C. Each of the above-mentioned reactors is composed of upper and lower sections, and the upper and lower sections of each phase reactor are connected through a star The frame 12 is connected; and the wire package 16 of each section of reactor is provided with a high-permeability magnetic core inside and outside.

[0092] It should be noted that the structure of the upper and lower parts of each phase reactor is basically the same, which is a concentric circle structure composed of multi-layer wire wraps. The inner iron core 17 and the outer iron core 18 are arranged inside and outside, so that the reluctance of the reactor is greatly reduced, and at the same time ...

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Abstract

A 66kv side structure of a compact 500kv main transformer comprises an A, B, C three-phase transformer. The three-phase transformer is connected to a main loop through a triangle bus. The main loop is connected with a 66kv bus and a switch branch loop. The 66kv bus and the switch branch loop are connected with each branch loop. The branch loop comprises: a capacitance branch loop and a reactance branch loop. The capacitance branch loop comprises: a shunt capacitor group and a series reactor connected with the shunt capacitor group. The reactance branch loop comprises a three-phase reactor. The triangle bus uses a gas insulation bus to complete triangle winding. In the capacitance branch loop, A, B, C three phases are superposed to place in the each shunt capacitor group. In the reactance branch loop, the reactor is a superposition-type dry parallel hollow reactor or a magnetic-shielding parallel reactor.

Description

technical field [0001] The invention relates to a compact 500kv main transformer 66kv side structure. Background technique [0002] my country's 500kv substation adopts 550kv / 220kv / 66kv three-level voltage, and the low-voltage side is connected to reactive power compensation device and station power, which is an important part of the substation. [0003] At present, in the design of substations, the design optimization of high voltage levels is generally emphasized. By optimizing the wiring type, adopting compact equipment, and reducing the size of power distribution devices, the reliability of the substation is improved, the floor area is reduced, and the project cost is reduced. However, the original ideas and models are still continued for the low-voltage side of the main transformer, and conventional equipment and conventional power distribution devices are used. There has been no obvious development and change over the years, and it occupies a large area. In the substa...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02B5/00H02B7/00H02B1/20H02B1/04H02J3/18
CPCY02E40/30
Inventor 徐荥王伟田俊强庞可曹志民张继军顾尔重耿建风
Owner HENNAN ELECTRIC POWER SURVEY & DESIGN INST
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