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Self-adaptive sinter nature prediction method based on model parameters

A technology of model parameters and prediction methods, applied in special data processing applications, chemical data mining, electrical digital data processing, etc., can solve problems that cannot be represented by mathematical formulas, cannot be directly measured, etc., to reduce manual intervention and realize self-adaptation , Reduce the effect of data loss

Inactive Publication Date: 2018-09-18
NORTHEASTERN UNIV
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Problems solved by technology

Among them, there are many influencing factors and uncertainties in the chemical process, and many factors cannot be directly measured. For example, the alkalinity in the product index is mainly composed of SiO in the raw ore. 2 CaO content and CaO content are jointly determined. Although there are mathematical formulas that can quantitatively describe the relationship between the three, the alkalinity is also affected by other sintering auxiliary materials, and the relationship between alkalinity and these auxiliary materials is very nonlinear. Characterized by mathematical formulas, it is necessary to analyze the specific values ​​of alkalinity and other auxiliary materials in the primary sintering process, and establish a sinter property prediction model based on model parameter adaptation to qualitatively describe the relationship between the three

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  • Self-adaptive sinter nature prediction method based on model parameters
  • Self-adaptive sinter nature prediction method based on model parameters
  • Self-adaptive sinter nature prediction method based on model parameters

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Embodiment Construction

[0026] Below in conjunction with accompanying drawing, take the actual situation of a sintering plant as an example, the concrete implementation of the present invention is described in detail.

[0027] The sinter property prediction method based on model parameter self-adaptation in this embodiment includes the following steps:

[0028] Step 1, collect the physical and chemical index data of the mixed ore;

[0029] Step 2. Use the sinter property prediction model to predict the properties of the sinter. The input of the model is the physical and chemical index data of the mixed ore, and the output is the corresponding sinter properties of the mixed ore.

[0030] Step 3. According to the continuously updated physical and chemical index data and forecast results of the mixed ore, continuously update the sintering ore blending history plan database, and replace the inferior data in the original database with excellent new data, so as to realize the continuous update of the datab...

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Abstract

The invention discloses a self-adaptive sinter prediction method based on model parameters. According to the method, blend physicochemical indexes and historical data of corresponding sinter nature are collected; the relation between the blend physicochemical indexes and the sinter nature is fitted out through an RBF neural network algorithm and is saved as a function; the blend physicochemical indexes are input to predict the sinter nature; and a sinter matching database is established to achieve the self-adaptation function of a model. Through the method, the sinter nature is predicted quickly and accurately based on data modeling, automatic update of the model parameters is realized, and a basis is provided for ore matching strategy production. Meanwhile, the existing prediction methoddepending on manual experience judgment is changed, and the working efficiency of an enterprise is improved.

Description

technical field [0001] The invention belongs to the technical field of sinter property prediction, and in particular relates to a sinter property prediction method based on model parameter self-adaptation. Background technique [0002] The sintering process is a complex process industrial production process, which includes both physical and chemical processes. Among them, there are many influencing factors and uncertainties in the chemical process, and many factors cannot be directly measured. For example, the alkalinity in the product index is mainly composed of SiO in the raw ore. 2 CaO content and CaO content are jointly determined. Although there are mathematical formulas that can quantitatively describe the relationship between the three, the alkalinity is also affected by other sintering auxiliary materials, and the relationship between alkalinity and these auxiliary materials is very nonlinear. Characterized by mathematical formulas, it is necessary to analyze the sp...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/00
CPCG16C20/10G16C20/70
Inventor 高宪文佟俊霖王明顺张鼎森郝得智刘博健
Owner NORTHEASTERN UNIV
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