Photovoltaic power station grid-connected fault model and analysis method of neutral point grounding through resistance

A technology of resistance grounding and photovoltaic power plants, which is applied in electrical testing/monitoring, instruments, control/regulation systems, etc., can solve the problems of less research on grid connection and no consideration of photovoltaic power plant failure control strategies. The neutral point is grounded through resistance, etc.

Active Publication Date: 2017-10-20
GANSU ELECTRIC POWER DESIGN INST
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Problems solved by technology

[0003] Traditional fault analysis has relatively little research on the grid-connected situation of large-scale photovoltaic power plants, and most of them do not consider the fault control strategy of photovoltaic power plants and the situation that the neutral point is grounded through a resistor, which inevitably leads to limitations in fault calculations

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  • Photovoltaic power station grid-connected fault model and analysis method of neutral point grounding through resistance
  • Photovoltaic power station grid-connected fault model and analysis method of neutral point grounding through resistance
  • Photovoltaic power station grid-connected fault model and analysis method of neutral point grounding through resistance

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Embodiment Construction

[0049] A grid-connected fault model of a photovoltaic power station whose neutral point is grounded by resistance, including establishing a basic model for the grid-connected system of a photovoltaic power station with a neutral point grounded by resistance, establishing a system line fault calculation model and a collection line fault calculation model; specifically :

[0050] (1) Based on the inverter power failure equivalent model with low voltage ride-through control strategy, a basic model is established for the photovoltaic power station grid-connected system with neutral point grounded by resistance; including the three-phase output voltage and Three-phase output current; the output current and voltage of photovoltaic inverter defined according to the theory of instantaneous reactive power; three-phase instantaneous active power; three-phase instantaneous reactive power; when the voltage drops, the inverter tries to maintain the output active power Stability of reactive...

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Abstract

The present invention provides a photovoltaic power station grid-connected fault model and analysis method of neutral point grounding through resistance. Based on an inversion power supply fault equivalence model with low-voltage crossing control strategy, a photovoltaic power station grid-connected system comprising neutral point grounding through resistance is subjected to modeling, and fault calculation models are respectively established aiming at the features of the system line of the grid-connected system and a collection line in a station. Each sequence network equation of the line fault calculation model and corresponding fault boundary conditions are combined to obtain a fault network multi-web nonlinear equation group, and the Newton-Ralfsnn's method is employed to construct an iteration correction equation to obtain a convergence solution so as to realize fault analysis. The grid-connected photovoltaic state employs a mode of the neutral point grounding through little resistance to solve the problem of fault modeling of the system, especially provide the possibility for the completion analysis of line faults through establishing of the collection line fault calculation model in the station, fully consider the influence of the neutral point grounding through resistance on the system zero sequence network and provide basis for a following protection design.

Description

technical field [0001] The present invention relates to the technical field of solar photovoltaic power generation and power transmission, in particular to a grid-connected fault model of a photovoltaic power station whose neutral point is grounded through resistance. analysis method. Background technique [0002] With the continuous integration of large-scale photovoltaic power plants into the grid, the failure rate of the power system will inevitably increase, and the short-circuit current of the transmission line will also increase, and may exceed the maximum current carrying capacity of some power components, thereby causing cascading failures . Therefore, the construction and improvement of the power grid must be carried out according to the maximum short-circuit current that may occur after the large-scale photovoltaic power station is connected to the grid. Therefore, fault calculation including large-scale photovoltaic power plants has become one of the most import...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B23/02
CPCG05B23/0281
Inventor 吴兴全吴丽李召兄李志伟瞿继平代海建姚天亮李秋鹏李政卢继平
Owner GANSU ELECTRIC POWER DESIGN INST
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