A Deep Learning-Based Soft Sensing Prediction Model for Tubular Furnace

2022 International Conference on Frontiers of Artificial Intelligence and Machine Learning (FAIML) Pub Date : 2022-06-01 DOI:10.1109/FAIML57028.2022.00013

Xiaowen Wang, Yongjun Zhang, Qiang Guo, Fei Zhang, T. Yildirim

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Abstract

Tubular furnaces are necessary in petrochemical industry, whose high-level automation has been hampered by the complicated inner thermal mechanism. To realize the high-accuracy prediction of key parameters of furnace thermal state, including thermal efficiency, which cannot be measured directly by sensors, in this paper, a soft sensing prediction model for tubular furnace is proposed. Based on the traditional CNN-GRU network, which is composed by the convolutional neural network (CNN) and the gated recurrent neural network (GRU), that the two designed feature extraction modules are embed, ultimately compose the proposed Conv-GRU network. Comparative experiments demonstrate that the proposed combinational network with two well-designed modules outperforms general convolution networks and shallow neural networks in terms of prediction accuracy. The results prove that the proposed GRU-Conv can accurately model the tubular furnace inner state with low computational cost, providing improvements room for the performance of combustion optimization control systems for tubular heating furnaces.

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基于深度学习的管式炉软测量预测模型

管式加热炉在石油化工行业中是必不可少的，但其内部热机理复杂，制约了其自动化程度的提高。为了实现传感器无法直接测量的热效率等炉膛热状态关键参数的高精度预测，本文提出了一种管状炉的软测量预测模型。基于卷积神经网络(CNN)和门控递归神经网络(GRU)组成的传统CNN-GRU网络，将设计的两种特征提取模块嵌入其中，最终组成本文提出的卷积-GRU网络。对比实验表明，该组合网络具有两个精心设计的模块，在预测精度方面优于一般卷积网络和浅神经网络。结果表明，该方法可以准确地模拟管式加热炉内部状态，计算成本低，为管式加热炉燃烧优化控制系统的性能提供了改进空间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Frontiers of Artificial Intelligence and Machine Learning (FAIML)

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