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Pulverizing system optimal distribution method based on self-adaptive chaos particle swarm

A technology for chaotic particle swarms and milling systems, which is applied in data processing applications, instruments, computing models, etc., and can solve problems such as equation constraints and particle swarm start-stop problems.

Inactive Publication Date: 2016-08-10
SOUTHEAST UNIV
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Problems solved by technology

[0005] Purpose of the invention: In order to overcome the deficiencies in the prior art, the present invention provides an optimal allocation method for the milling system based on adaptive chaotic particle swarms to solve the problem of unit start-stop and equation constraints in the optimization of particle swarms

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  • Pulverizing system optimal distribution method based on self-adaptive chaos particle swarm
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  • Pulverizing system optimal distribution method based on self-adaptive chaos particle swarm

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Embodiment

[0042] In order to illustrate the specific implementation method of the present invention, taking the medium-speed direct-blown pulverization system of a 1000MW unit in a certain power plant as an example, the specific implementation steps of the application method to complete the optimization of the pulverization system are introduced. The output range of the coal mill is 30t / h-80t / h during operation;

[0043] 1) Collect the DCS data of the pulverizing system of the power plant over the years, including: unit load and the corresponding coal pulverizer coal supply, active power of each coal pulverizer, unit consumption of pulverization, unit consumption of primary fan, each Coal feed rate and other related data of the coal mill; and fit the relationship between the load of the unit and the total coal feed of the coal mill, and the relationship between the coal feed of each coal mill and the unit consumption of pulverization; Formula 1 is the unit load and The relationship betw...

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Abstract

The invention discloses a pulverizing system optimal distribution method based on a self-adaptive chaos particle swarm. The pulverizing system optimal distribution method belongs to the field of power system optimal distribution, calculates to obtain a total coal feed quantity of coal pulverizers according to given load of a unit, and distributes the total coal feed quantity to the N coal pulverizers of the unit reasonably so that the total unit consumption of pulverizing is minimal. The pulverizing system optimal distribution method is characterized by comprising the steps of: calculating a coal feed quantity of the unit according to unit load, and then determining different operation modes of the N coal pulverizers according to an output range of each coal pulverizer; and adopting a self-adaptive chaos particle swarm algorithm to calculate unit consumption of pulverizing of each operation mode, and determining the operation mode for the coal pulverizers according to the minimal unit consumption of pulverizing. The pulverizing system optimal distribution method can solve the unit start-up and shut-down problem of an intelligent optimization algorithm and the equality constraint problem of the particle swarm algorithm.

Description

technical field [0001] The invention relates to an optimal allocation method for a pulverizing system based on self-adaptive chaotic particle swarms, and belongs to the field of optimal allocation of electric power systems; Background technique [0002] Energy conservation and emission reduction is an important strategic measure to ensure the stable development of my country's economy and society. For high energy-consuming industries, energy conservation and emission reduction is not only an important opportunity for the industry, but also a formidable challenge. The thermal power industry is a major consumer of primary energy in my country. Half of the country's coal output is used for thermal power generation, and more than 20% of the power consumption of thermal power plants is used for pulverizing systems; It is an important component, and its operation directly affects the safe operation of the boiler and the efficiency of the boiler; [0003] Particle swarm algorithm w...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/04G06Q10/06G06Q50/06G06N3/00
CPCG06Q10/04G06N3/006G06Q10/06313G06Q50/06
Inventor 仲亚飞韦红旗
Owner SOUTHEAST UNIV
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