利用工业数据对动态泡沫浮选模型进行状态和参数估计

IF 4.9 2区 工程技术 Q1 ENGINEERING, CHEMICAL
Jaco-Louis Venter, Johan Derik le Roux, Ian Keith Craig
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引用次数: 0

摘要

本文研究了浮选回路的可观测动态模型,旨在进行在线状态和参数估计以及基于模型的控制。其目的是从工业数据中在线估计模型状态和参数。然而,鉴于工厂数据的局限性,我们进行了额外的模型分析。结果表明,在没有在线成分测量的情况下,只能在线估算简化模型的状态和参数。简化模型将所有回收机制归结为一个经验方程。简化模型用于开发移动地平线估算器(MHE),并在工业数据中实施。MHE 中的状态和参数估计用于评估模型在后退控制范围内的预测精度,就像模型预测控制(MPC)中所做的那样。考虑到可用数据的不确定性、未测量到的干扰和缺失的在线测量,估计和预测结果至少在定性意义上是合理准确的。如果能获得准确可靠的在线测量数据用于估算,那么简化后的模型就有可能用于对浮选回路进行基于模型的长期监督控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State and parameter estimation of a dynamic froth flotation model using industrial data
This paper investigates an observable dynamic model of froth flotation circuits aimed at online state and parameter estimation and model-based control. The aim is to estimate the model states and parameters online from industrial data. However, in light of limitations in the plant data, additional model analysis is conducted. It is shown that without online compositional measurements, only the states and parameters of a reduced model can be estimated online. The reduced model lumps all recovery mechanisms into a single empirical equation. The reduced model is used to develop a moving horizon estimator (MHE) which is implemented on the industrial data. The state and parameter estimates from the MHE are used to evaluate the model prediction accuracy over a receding control horizon as would be done in model predictive control (MPC). Given the uncertainty of the available data, unmeasured disturbances and missing online measurements, the estimation and prediction results are reasonably accurate, at least in a qualitative sense. If accurate and reliable online measurements are available for estimation, the reduced model shows potential to be used for long-term model-based supervisory control of a flotation circuit.
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来源期刊
Minerals Engineering
Minerals Engineering 工程技术-工程:化工
CiteScore
8.70
自引率
18.80%
发文量
519
审稿时长
81 days
期刊介绍: The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.
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