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High permeability wind-solar-hydropower active power control method based on sectional safety constraint

A technology with safety constraints and high penetration rate, applied in the field of economic dispatch of power systems, it can solve problems such as insufficient feedback from power plants to command response conditions, and the need to improve the active power control sequence of multiple nested sections, so as to promote positive response and fair dispatch. , The effect of eliminating the cross-section limit and ensuring the safety of the section

Active Publication Date: 2018-11-23
CHUXIONG POWER SUPPLY BUREAU OF YUNNAN POWER GRID CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] Issues related to high-penetration new energy dispatching control are one of the current research hotspots, but the existing traditional control strategies cannot effectively deal with the frequent transgression of sections caused by special circumstances, and the feedback on the command response of the plant is not timely enough. The active power control sequence for multiple nested sections also needs to be improved

Method used

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  • High permeability wind-solar-hydropower active power control method based on sectional safety constraint
  • High permeability wind-solar-hydropower active power control method based on sectional safety constraint
  • High permeability wind-solar-hydropower active power control method based on sectional safety constraint

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Embodiment

[0063] One, at first, introduce the method principle that the present invention relates to:

[0064] A high-permeability wind-solar-hydropower active power control strategy based on section safety constraints of the present invention comprises the following steps:

[0065] (1) Step 1, comprehensively considering the response accuracy and corresponding speed of the power plant, adopting the assessment and scoring method according to the interval, and scoring the friendliness of each power station to connect to the grid, including the following steps;

[0066] 1) The response accuracy score is determined by the following formula:

[0067] c ai = ρ 1 c ai1 +ρ 2 c ai2 +…+ρ m c aim i=1,2,...,n

[0068] In the formula, n is the number of power stations; m is the number of intervals divided by the response accuracy on the grid side; c ai1 ,c ai2 ,...,c aim is the accuracy score corresponding to each interval; ρ 1 ,ρ 2 ,…,ρ m is the weight coefficient of each interval. ...

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Abstract

The invention belongs to the technical field of power system economic dispatch, and particularly relates to a high-permeability wind-solar-hydropower active power control method based on a section safety constraint. The control method divides the section into four states: safety, warning, critical buffer and over-limit. The establishment of the critical buffer state can avoid the over-limit causedby factors such as the inaccurate response of the plant station, so as to maximize the output of the plant with the full utilization of the section. At the same time, factory stations access unfriendly can be punished and factory stations access friendly can be rewarded combined with the assessment score of the power station, so as to promote the positive response and fair scheduling of the plantto the instructions. High permeability wind-solar-hydropower active power control method based on sectional safety constraints also considers the trigger mechanism for emergencies, eliminates sectionover-limit due to various events, without waiting for the end of the instruction cycle. A large-scale fair scheduling under multiple nested sections can be ensured by section search method "from outside to inside".

Description

technical field [0001] The invention belongs to the technical field of electric power system economic dispatching, and in particular relates to a high-permeability wind-light-water active power control method based on section safety constraints. Background technique [0002] my country has built large-scale wind farms, hydropower stations and photovoltaic power station groups. Due to the high penetration rate of new energy and its output randomness and volatility in some areas, improper regulation of new energy can easily cause transmission congestion in outgoing channels, affecting the safe and stable operation of the power grid and the efficient delivery of new energy. Since new energy delivery channels are often composed of multi-level sections, and each section is connected to many different plants and stations, it is necessary to formulate a real-time scheduling control strategy for wind, light, and water that takes into account the safety constraints of multi-level nes...

Claims

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Application Information

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IPC IPC(8): H02J3/48
CPCH02J3/48
Inventor 王能李天权王林宏方俊钧赵洁刘涤尘刘琦陈寅石丽波李志超尹兴隆杨琼珍邓正东邵尤国刘子皓杨桥伟纪思施治虎施辉选祝青
Owner CHUXIONG POWER SUPPLY BUREAU OF YUNNAN POWER GRID CO LTD
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