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Voltage weak region evaluation method for alternating current system at direct current receiving end

A technology for weak voltage and AC systems, applied to AC network circuits, AC networks with different sources of the same frequency, electrical components, etc., can solve problems such as unfavorable control strategies, actual disconnection of results, and failure to take into account static voltage characteristics of loads, etc.

Active Publication Date: 2017-12-19
HOHAI UNIV
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Problems solved by technology

[0004] In addition, the existing methods usually regard the load as a constant power load when calculating reactive power-voltage sensitivity or static voltage stability, and do not take into account the static voltage characteristics of the load. The results obtained may be out of touch with the actual situation, which is not conducive to guiding subsequent control strategies formulation

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  • Voltage weak region evaluation method for alternating current system at direct current receiving end
  • Voltage weak region evaluation method for alternating current system at direct current receiving end
  • Voltage weak region evaluation method for alternating current system at direct current receiving end

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Embodiment Construction

[0059] The technical solutions of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0060] Taking the EPRI-36 node system as an example, the system is as follows figure 1 As shown, the system has a total of 8 generators with a total generating capacity of 2741.3692MW and a rated load of 2649.8MW. The DC transmission system has a rated voltage of ±250kV, a rated power of 500MW, and bipolar operation; the AC transmission voltage levels are 220kV and 500kV respectively. The system is divided into three areas. The sending end (BUS33) and receiving end (BUS34) of the DC transmission system are located in area 2 and area 3 respectively.

[0061] Step 1: The load adopts the constant impedance, constant current, constant power (ZIP) model, and establishes the power flow equation of the AC and DC power system considering the static voltage characteristics of the load:

[0062] (a) When the load adopts the ZIP model, the load of n...

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Abstract

The invention discloses a voltage weak region evaluation method for an alternating current system at a direct current receiving end. The voltage weak region evaluation method comprises the steps of calculating the sensitivity of an alternating current node voltage relative to direct current falling point reactive power by taking a load static voltage characteristic-considered alternating current direct current power system power flow equation as the basis; next, based on a continuous power flow method, calculating the static voltage stability margin of a near region alternating current node of the load static voltage characteristic-considered direct current falling point; and finally, obtaining the voltage weak region evaluation index by comprehensively considering the two indexes. According to the method, in the voltage weak region evaluation process, the reactive-voltage sensitivity and static voltage stability margin are taken into comprehensive consideration, so that the indexes are more all-around; and meanwhile, the load static voltage characteristic is taken into consideration in the sensitivity and static voltage stability margin calculation, so that the obtained result can better reflect the operation law of the system, thereby promoting guidance in subsequent control strategy formulating.

Description

technical field [0001] The invention belongs to the field of analysis and control of an AC-DC interconnected power system, and in particular relates to a method for assessing a weak voltage region of a DC receiving-end AC system. Background technique [0002] Usually, the load of the AC system near the high-power DC landing point is heavy. When the voltage support capacity of the AC system is insufficient, it is easy to cause a fault in the DC system, and even cause the fault to spread to the entire network, affecting the safe and stable operation of the system. Therefore, only by determining the voltage weak link of the AC system in the vicinity of the DC landing point can the control be guided reasonably. [0003] Existing methods generally only consider reactive power-voltage sensitivity or static voltage stability margin when evaluating power system voltage weak regions. Compared with existing methods, the indicators in this paper are more comprehensive and the results ...

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Application Information

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IPC IPC(8): H02J3/00H02J3/06
CPCH02J3/00H02J3/06H02J2203/20
Inventor 潘学萍李乐颜君凯
Owner HOHAI UNIV
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