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Fault ride-through control device and method for alternating/direct current mixed microgrid

An AC-DC hybrid and fault ride-through technology, applied in the direction of single-grid parallel feeding arrangement, etc., can solve the problem that the fault ride-through level of the AC-DC hybrid microgrid is not well improved, and the DC low-voltage busbar can improve the AC fault ride-through capability. , the effect of avoiding blocking and stabilizing voltage fluctuations

Active Publication Date: 2014-02-05
SHENYANG POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These technologies have serious limitations, and they have not been able to improve the fault ride-through level of the AC-DC hybrid microgrid and suppress the voltage fluctuation of the DC low-voltage bus.

Method used

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  • Fault ride-through control device and method for alternating/direct current mixed microgrid
  • Fault ride-through control device and method for alternating/direct current mixed microgrid
  • Fault ride-through control device and method for alternating/direct current mixed microgrid

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Embodiment Construction

[0040] An embodiment of the present invention will be further described below in conjunction with the accompanying drawings.

[0041] Such as figure 1 As shown, in this implementation example, the high-voltage DC bus of the AC-DC hybrid microgrid is connected to the external 10kV AC distribution network through the rectifier converter AC / DC in the power electronic transformer, and the 380V AC bus is connected to the inverter converter High-voltage DC bus, 600V low-voltage DC bus The power electronic transformer DC / DC is connected to the high-voltage DC bus. At the same time, the AC load is centrally connected to the AC micro-grid system through the 380V AC bus. The 380V AC bus and the 600V low-voltage DC bus pass through the bidirectional power frequency conversion unit The DC distributed power supply, energy storage device and DC load are connected to the 600V low-voltage DC bus, and the AC distributed power supply and AC load are connected to the 380V AC bus.

[0042] Such ...

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Abstract

The invention relates to a fault ride-through control device and method for alternating / direct current mixed microgrid, and belongs to the field of operational control of the alternating / direct current mixed microgrid. A power release unit, a direct current voltage adjusting unit, a direct current power release unit and a central monitoring unit are added to an alternating / direct current mixed microgrid system to form an alternating current fault ride-through coordination control structure of the alternating / direct current mixed microgrid system. By means of the fault ride-through control device and method for the alternating / direct current mixed microgrid, a controllable release access of excess power in a failure process is achieved, tide mutation is prevented from impacting equipment in the grid, voltage fluctuation of a low-voltage direct current bus is stabilized, lockout of alternating / direction current power exchanging equipment is avoided, the alternating / direction current power exchanging equipment is made to transmit power in the failure process, the impact to a power frequency conversion unit from failure current is reduced, tide distribution in the grid is controlled in an optimal mode, the excess power is controlled to be released, overcurrent loss is reduced, normal work in the failure process is guaranteed, and alternating current fault ride-through is achieved when alternating / direct current microgrids are connected. The fault ride-through control device is compact in structure, achieves fault ride-through with the minimum loss method, and has popularization significance.

Description

technical field [0001] The invention belongs to the field of operation control of an AC-DC hybrid microgrid, and in particular relates to an AC-DC hybrid microgrid fault ride-through control device and method. Background technique [0002] For the AC-DC hybrid microgrid system, in order to reduce the impact of the sudden change of the power flow in the AC-DC hybrid microgrid and the failure of the AC microgrid system on the DC microgrid system, and improve the safety and reliability of the power electronic equipment in the network , it is required that when the AC microgrid system has a serious grid voltage drop fault (such as a three-phase short-circuit fault, etc.), the communication bus between the AC and DC microgrid systems should not be disconnected as much as possible, and the disconnection of the communication bus between the AC and DC hybrid microgrid systems should be avoided. The re-connection to the grid after fault recovery will cause a sudden change in the powe...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/38
Inventor 徐建源吴冠男王飞鸣曹晨史可鉴
Owner SHENYANG POLYTECHNIC UNIV
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