Imperialistic competitive algorithm-based carbon-energy combined flow solving method

An imperialism and composite flow technology, applied in the field of power system carbon-energy composite flow optimization, can solve problems such as double calculation of carbon emissions, complex problems, and slow iterations

Inactive Publication Date: 2017-10-17
ELECTRIC POWER RESEARCH INSTITUTE, CHINA SOUTHERN POWER GRID CO LTD +1
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Problems solved by technology

However, in the above model, the power generation side and the grid side only care about their own carbon footprint and carbon emissions, which will undoubtedly cause double calculation of carbon emissions. Reasonable apportionment between sides
[0003] In addition, the optimal carbon-energy composite flow model of the power system is a nonlinear programming problem with multiple constraints and multiple variables. The traditional Newton method...

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  • Imperialistic competitive algorithm-based carbon-energy combined flow solving method
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  • Imperialistic competitive algorithm-based carbon-energy combined flow solving method

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Embodiment Construction

[0054] The present invention is described in detail below in conjunction with accompanying drawing and specific embodiment:

[0055] Please refer to figure 1 , figure 2 and image 3 As shown, one embodiment of the present invention provides a method for solving the carbon-energy composite flow based on the imperialist competition algorithm, which is an optimal carbon-energy composite flow solution method for the power system based on the imperialist competition reinforcement learning algorithm of multicultural migration , starting from the perspective of the grid side, this implementation mode realizes the low-carbon, economical and safe operation of the grid through the reasonable distribution of reactive power on the grid side; in the calculation example, the weight coefficient μ in the objective function 1 , μ 2 , μ 3 , are all set to 1, indicating that economy, low carbon and safety are equally important to the power grid. The method includes the following steps:

[...

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Abstract

The invention relates to an imperialistic competitive algorithm-based carbon-energy combined flow solving method. Carbon-energy combined flow of a power system is optimized by adopting a multicultural transfer-based imperialistic competitive reinforcement learning algorithm; each empire adopts a value function matrix in the reinforcement learning algorithm as a cultural matrix of the empire; each optimization nation updates the cultural matrix through interaction with the environment and performs action selection according to the cultural matrix to improve the globality of a policy; and knowledge in the cultural matrix is stored in real time and multicultural transfer is performed to improve the optimization efficiency of subsequent new tasks. According to the adopted method, the cultural transfer-based imperialistic competitive reinforcement learning algorithm is a relatively new intelligent algorithm and has the advantages of high convergence speed, better global convergence, higher stability and the like, so that quick carbon-energy combined flow optimization of the large-scale power system is realized.

Description

Technical field: [0001] The invention relates to the field of optimization of carbon-energy composite flow in electric power system, in particular to a solution method of carbon-energy composite flow based on imperialist competition algorithm. Background technique: [0002] In recent years, by CO 2 The problem of environmental degradation caused by mainly greenhouse gases is becoming more and more serious, and carbon emission reduction and low-carbon economy have become the focus of widespread attention in the industry and academia. The power industry is CO 2 As one of the major emitters of China, it is obliged to be more responsible to carry out low-carbon power construction. However, many current researches on low-carbon electricity, such as unit combination taking into account low-carbon resources, economic dispatch taking into account low-carbon resources, and carbon capture and From the perspective of the grid side, low-carbon grid dispatching is carried out. At pre...

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Application Information

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IPC IPC(8): G06Q10/04G06F17/16G06N3/00G06N3/12G06Q50/06
CPCG06F17/16G06N3/006G06N3/126G06Q10/04G06Q50/06
Inventor 董朝阳郭晓斌郑宇赵俊华孟科李正佳
Owner ELECTRIC POWER RESEARCH INSTITUTE, CHINA SOUTHERN POWER GRID CO LTD
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