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Wind-photovoltaic power generation cluster active power real-time optimal control method based on predicted output successive approximation

A wind and wind power generation, successive approximation technology, applied in photovoltaic power generation, electrical components, circuit devices, etc., can solve the problems of not comprehensively considering the safety and stability constraints of the power grid, wind and wind independent constraints, peak shaving constraints, and wind and wind power stations without correcting output prediction values, etc. To achieve the effect of solving poor prediction accuracy and optimizing allocation

Active Publication Date: 2018-05-18
YUNNAN POWER GRID +2
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Problems solved by technology

[0006] However, the existing technical achievements have not corrected the output prediction value according to the difference between the actual output of wind and solar power plants connected to the grid during the instruction execution period and the instruction, nor have they comprehensively considered the grid security and stability constraints, wind and solar independent constraints, and peak shaving constraints to achieve wind and solar curtailment. Optimal allocation of active power commands for wind and solar power plants with the goal of minimum

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  • Wind-photovoltaic power generation cluster active power real-time optimal control method based on predicted output successive approximation
  • Wind-photovoltaic power generation cluster active power real-time optimal control method based on predicted output successive approximation
  • Wind-photovoltaic power generation cluster active power real-time optimal control method based on predicted output successive approximation

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Embodiment 1

[0035] An embodiment of the present invention discloses a real-time optimal control method for active power of a wind and solar power generation cluster based on successive approximation of predicted output. The implementation steps are as follows figure 1 shown.

[0036] figure 1Step 1 describes that if it is the first calculation, go directly to step 3; otherwise, according to the change trend between the real-time output of each wind power plant and the active power command within the instruction execution period, the strategy of successive approximation is adopted to correct each wind power plant output forecast value. Among them, the process of correcting the output forecast value of each wind power plant is as follows:

[0037] According to the real-time output, calculate the estimated value of the predicted output value of each wind power plant through formula (1), and then calculate the corrected value of the predicted output value of each wind power plant through fo...

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Abstract

The invention discloses a wind-photovoltaic power generation cluster active power real-time optimal control method based on predicted output successive approximation, which belongs to the technical field of power systems and automation thereof. The predicted output of a wind-photovoltaic power station is gradually corrected according to the change trend of the difference between the actual outputof the wind-photovoltaic power station and an instruction in the execution period of the instruction. Based on a linear programming algorithm, optimal allocation of the power generation instructions of the wind-photovoltaic power station based on the principle of openness, fairness and justice is realized by taking the corrected predicted output value as an allocation basis, considering the indexes and factors affecting the instruction allocation prediction accuracy and control performance, taking the minimum cost of wind and photovoltaic energy curtailment as an objective and taking the safety and stability constraint, the overall peak shaving constraint and the wind-photovoltaic independence constraint into account. The power generation capacity of the wind-photovoltaic power station andthe reception capacity of the grid are fully utilized. The ubiquitous problems in wind-photovoltaic power generation cluster grid-connection control, such as low prediction precision and insufficientutilization of the wind-photovoltaic power generation capacity and the reception capacity of the grid, are solved.

Description

technical field [0001] The invention belongs to the technical field of electric power systems and automation thereof, and in particular relates to a real-time optimization control method for active power of wind and solar power generation clusters based on successive approximation of predicted output. Background technique [0002] The power generation characteristics of new energy power plants such as wind power and photovoltaic power plants are volatile, random and intermittent. In order to fully absorb the power of wind power plants under the premise of ensuring the safety and stability of the power grid, the power grid control center not only needs to master the grid-connected power forecast of wind power plants information, and it is necessary to be able to control the grid-connected power of the wind power plant in real time. GB / T 19963-2011 "Technical Regulations for Wind Farm Connected to Power System" promulgated by the National Standardization Management Committee c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/48H02J3/38
CPCH02J3/382H02J3/48Y02E10/56
Inventor 汪马翔赵川王珍意徐泰山王昊昊李吉晨扈卫卫陈堂龙段慧赵明张昊天段荣华
Owner YUNNAN POWER GRID
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