Predicting Deflagration and Detonation in Detonation Tube

Namazi, Samira; Brankovic, Ljiljana; Moghtaderi, Behdad; Zanganeh, Jafar

doi:10.1007/978-981-19-4831-2_43

Author(s)

Namazi, Samira

Brankovic, Ljiljana

Moghtaderi, Behdad

Zanganeh, Jafar

Publication Date

2022

Abstract

<p>In order to better understand conditions that lead to methane explosions in underground coal mines, we apply machine learning to data collected in an industrial scale research project carried out at the University of Newcastle, Australia, 2014-2018 (VAM Abatement Safety Project). We present a comparison of five different methods (Decision Tree, Random Forest, Naïve Bayes, AdaBoostM1, and SVM with SMO) to classify the maximum pressure and maximum flame velocity in order to predict detonation and inform the design of capture ducts. All methods are evaluated with a tenfold cross validation technique. We found that tree-based classification methods provide the most accurate prediction of dangerous pressure and supersonic velocity.</p>

Citation

Applications of Artificial Intelligence and Machine Learning: Select Proceedings of ICAAAIML 2021, p. 529-543

ISBN

9789811948312

9789811948305

9789811948336

9811948313

Link

https://hdl.handle.net/1959.11/54505

Language

en

Publisher

Springer

Series

Lecture Notes in Electrical Engineering

Edition

1

Title

Predicting Deflagration and Detonation in Detonation Tube

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Namazi, Samira Brankovic, Ljiljana Moghtaderi, Behdad Zanganeh, Jafar
Publication Date	2022
Abstract	<p>In order to better understand conditions that lead to methane explosions in underground coal mines, we apply machine learning to data collected in an industrial scale research project carried out at the University of Newcastle, Australia, 2014-2018 (VAM Abatement Safety Project). We present a comparison of five different methods (Decision Tree, Random Forest, Naïve Bayes, AdaBoostM1, and SVM with SMO) to classify the maximum pressure and maximum flame velocity in order to predict detonation and inform the design of capture ducts. All methods are evaluated with a tenfold cross validation technique. We found that tree-based classification methods provide the most accurate prediction of dangerous pressure and supersonic velocity.</p>
Citation	Applications of Artificial Intelligence and Machine Learning: Select Proceedings of ICAAAIML 2021, p. 529-543
ISBN	9789811948312 9789811948305 9789811948336 9811948313
Link	https://hdl.handle.net/1959.11/54505
Language	en
Publisher	Springer
Series	Lecture Notes in Electrical Engineering
Edition	1
Title	Predicting Deflagration and Detonation in Detonation Tube
Type of document	Conference Publication
Entity Type	Publication

Predicting Deflagration and Detonation in Detonation Tube

Files: