用Hammerstein-Wiener系统模拟燃烧过程中的光学变量

2021 IEEE International Conference on Automation/XXIV Congress of the Chilean Association of Automatic Control (ICA-ACCA) Pub Date : 2021-03-22 DOI:10.1109/ICAACCA51523.2021.9465247

Hugo O. Garcés, Eduardo Espinosa, A. Rojas, G. Carvajal

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引用次数: 1

摘要

在许多工业环境中，基于光学变量控制燃烧过程可以提高效率并减少污染物排放。目前，诸如总辐射Rad_{t}$和火焰温度T_{f}$等光学变量被广泛用于燃烧诊断，但由于燃烧复杂性和计算限制，尚未集成到闭环控制方案中。本文通过寻找一种合适的结构来模拟这些光学变量的动态行为，提出了一种基于模型的控制方案。使用赤池信息准则的评估和现场测量的准确性表明，考虑到SISO和TISO情景，Hammerstein和Wiener结构可以准确地模拟钢包炉预热器的总辐射和煤锅炉的火焰温度。

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Modeling optical variables in combustion processes by Hammerstein-Wiener systems

Control of combustion processes based on optical variables can increase efficiency and reduce contaminant emissions in many industrial settings. Nowadays, optical variables such as total radiation $Rad_{t}$ and flame temperature $T_{f}$ are widely used for combustion diagnostics but not yet integrated into closed-loop control schemes, given by the combustion complexity and computational limitations. This paper advances toward a model-based control solution by finding a suitable structure for modeling the dynamic behavior of these optical variables. Evaluations using Akaike's Information Criterion and accuracy over field measurements show that Hammerstein and Wiener structures can accurately model both total radiation in a ladle furnace preheater and flame temperature in a coal boiler, considering SISO and TISO scenarios.

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2021 IEEE International Conference on Automation/XXIV Congress of the Chilean Association of Automatic Control (ICA-ACCA)

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