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Three-phase transformer modeling method for asymmetrical load flow calculation of power grid

A technology of power flow calculation and modeling method, applied in calculation, instrument, electrical and digital data processing, etc., can solve the problems of unintuitive modeling process, inconvenient consideration of zero-sequence excitation impedance, lack of direct modeling method, etc. Effects of Physical Processes

Active Publication Date: 2015-09-02
NANCHANG UNIV
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Problems solved by technology

Transformer is the core component of voltage conversion in AC power grid. The three-phase model of transformer is mostly based on sequence component method. The modeling process is not intuitive. It is inconvenient to consider the neutral point grounding impedance and zero-sequence Method of Direct Modeling in Components

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  • Three-phase transformer modeling method for asymmetrical load flow calculation of power grid
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  • Three-phase transformer modeling method for asymmetrical load flow calculation of power grid

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Embodiment Construction

[0089] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0090] Specific implementation steps:

[0091] (1) As attached Figure 1-Figure 9 , establish the three-phase transformer circuit model of Yy, Yyn, Yd, YNy, YNyn, YNd, Dy, Dyn, Dd in turn, and choose a clock direction as the reference for each connection group, which are: 0, 0, 1, 0 . The corresponding relationship of the three-phase windings on the side can be adjusted by rotation, and in step (4) of the present invention, the relative clock transformation matrix will be used to describe its mathematical model uniformly.

[0092] (2) According to the attached Figure 1-Figure 9 In the circuit model shown, write the generalized two-port I=YU equation shown in formula (1), and according to whether there is a neutral line (N or n) on the primary and secondary sides, the corresponding one in formula (1) , N or n on the secondary side a...

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Abstract

The invention discloses a three-phase transformer modeling method for asymmetrical load flow calculation of a power grid. A circuit model with an ideal three-phase transformer in serial connection with an impedor is adopted, a two-port definition is generalized to establish mathematic models of a Y-parameter matrix, block elements of the Y-parameter matrix can be calculated by a method resolving primary-side and secondary-side current by means of sequential zero setting of primary-side and secondary-side voltage, the mathematic models for different o'clock times in a same group are unified via a relative o'clock-time transformational matrix, addition items are added via a phase line transformational matrix to correct a matric including Y-parameters of a D-type winding transformer so as to avoid singularity, and finally nine groups of block element calculation formulae covering fifty-four Y-parameter matrixes of a three-phase transformer are obtained. The three-phase transformer modeling method has the advantages that the established circuit model is capable of directly reflecting a transformation process and influences of leakage flux and a zero-sequence excitation impedance; repeated modeling of the transformer for different o'clock times is needless by the aid of the relative o'clock-time transformational matrix; by the aid of a method for solving the problem of singularity of the Y-parameter matrixes by adding the addition items through the phase line transformational matrix, special processing is no longer needed during load flow calculation.

Description

technical field [0001] The invention belongs to the technical field of power system analysis. Background technique [0002] For a long time, the power system has been analyzed and calculated based on the three-phase approximately symmetrical condition using a single-phase model. However, in recent years, the transmission network and distribution network have made great progress, and the scene of asymmetric operation of the power grid will become more and more common. In the high-voltage transmission network, even under the condition that the loads are three-phase symmetrical, the incomplete transposition of the three-phase lines will still lead to system asymmetry. In the medium and low voltage distribution network, with the maturity of technologies such as micro-grid, active distribution network and new energy power generation, the large-scale access of distributed power will be greatly promoted. The impact of single-phase high-power new energy generation / power consumption...

Claims

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Application Information

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IPC IPC(8): G06F19/00
CPCY02E60/00
Inventor 王淳高元海余志强熊宁黄辉王宁
Owner NANCHANG UNIV
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