A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network

A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network

Temperature monitoring of the tube metal temperature (TMT) of cracking furnace tubes is essential to the normal production of ethylene. However, the existing infrared temperature measurement technology has certain defects in the accuracy of temperature measurement, the accuracy of temperature discri...

Full description

Bibliographic Details
Main Authors: Junfeng Zhao, Zhiping Peng, Delong Cui, Qirui Li, Jieguang He, Jinbo Qiu
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Ethylene cracking furnace tubes
machine learning
neural network
embedded processor
Online Access:https://ieeexplore.ieee.org/document/8887501/
id doaj-2124fffb475c44d888f8df4a75e5f934
record_format Article
spelling doaj-2124fffb475c44d888f8df4a75e5f9342021-03-30T00:43:27ZengIEEEIEEE Access2169-35362019-01-01715864315865410.1109/ACCESS.2019.29504198887501A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural NetworkJunfeng Zhao0https://orcid.org/0000-0002-5271-1715Zhiping Peng1Delong Cui2Qirui Li3Jieguang He4Jinbo Qiu5Computer College, Guangdong University of Petrochemical Technology, Maoming, ChinaComputer College, Guangdong University of Petrochemical Technology, Maoming, ChinaCollege of Electronic Information Engineering, Guangdong University of Petrochemical Technology, Maoming, ChinaComputer College, Guangdong University of Petrochemical Technology, Maoming, ChinaComputer College, Guangdong University of Petrochemical Technology, Maoming, ChinaCollege of Electronic Information Engineering, Guangdong University of Petrochemical Technology, Maoming, ChinaTemperature monitoring of the tube metal temperature (TMT) of cracking furnace tubes is essential to the normal production of ethylene. However, the existing infrared temperature measurement technology has certain defects in the accuracy of temperature measurement, the accuracy of temperature discrimination of overlapping furnace tubes and the technical cost. In view of this, this paper proposes a novel measurement and processing method. In this method, our team developed a new generation of intelligent temperature measurement devices for measuring TMT, and proposed an intelligent temperature processing algorithm based on machine learning and neural network running on this intelligent temperature measurement devices. This method not only realizes the automatic measurement of TMT, reduces the workload of operators, but also improves the accuracy of measuring TMT and the accuracy of overlapping tube identification. In addition, this method also reduces the technical cost of TMT measurement to some extent. Finally, by comparing the TMT data measured by different methods, it is proved that the proposed method has better performance level than other methods.https://ieeexplore.ieee.org/document/8887501/Ethylene cracking furnace tubesmachine learningneural networkembedded processor
collection DOAJ
language English
format Article
sources DOAJ
author Junfeng Zhao
Zhiping Peng
Delong Cui
Qirui Li
Jieguang He
Jinbo Qiu
spellingShingle Junfeng Zhao
Zhiping Peng
Delong Cui
Qirui Li
Jieguang He
Jinbo Qiu
A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
IEEE Access
Ethylene cracking furnace tubes
machine learning
neural network
embedded processor
author_facet Junfeng Zhao
Zhiping Peng
Delong Cui
Qirui Li
Jieguang He
Jinbo Qiu
author_sort Junfeng Zhao
title A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
title_short A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
title_full A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
title_fullStr A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
title_full_unstemmed A Method for Measuring Tube Metal Temperature of Ethylene Cracking Furnace Tubes Based on Machine Learning and Neural Network
title_sort method for measuring tube metal temperature of ethylene cracking furnace tubes based on machine learning and neural network
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Temperature monitoring of the tube metal temperature (TMT) of cracking furnace tubes is essential to the normal production of ethylene. However, the existing infrared temperature measurement technology has certain defects in the accuracy of temperature measurement, the accuracy of temperature discrimination of overlapping furnace tubes and the technical cost. In view of this, this paper proposes a novel measurement and processing method. In this method, our team developed a new generation of intelligent temperature measurement devices for measuring TMT, and proposed an intelligent temperature processing algorithm based on machine learning and neural network running on this intelligent temperature measurement devices. This method not only realizes the automatic measurement of TMT, reduces the workload of operators, but also improves the accuracy of measuring TMT and the accuracy of overlapping tube identification. In addition, this method also reduces the technical cost of TMT measurement to some extent. Finally, by comparing the TMT data measured by different methods, it is proved that the proposed method has better performance level than other methods.
topic Ethylene cracking furnace tubes
machine learning
neural network
embedded processor
url https://ieeexplore.ieee.org/document/8887501/
work_keys_str_mv AT junfengzhao amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT zhipingpeng amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT delongcui amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT qiruili amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT jieguanghe amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT jinboqiu amethodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT junfengzhao methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT zhipingpeng methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT delongcui methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT qiruili methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT jieguanghe methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
AT jinboqiu methodformeasuringtubemetaltemperatureofethylenecrackingfurnacetubesbasedonmachinelearningandneuralnetwork
_version_ 1724187887364210688

Similar Items