Support vector machines combined to observers for fault diagnosis in chemical reactors

Support vector machines combined to observers for fault diagnosis in chemical reactors

A hybrid data/model‐based approach is proposed for fault detection and isolation for chemical reactions in jacketed stirred vessels. Using data‐based methods in high nonlinear systems requires training data to include a wide range of varying operations to ensure correct fault isolation. If such data...

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Bibliographic Details
Published in:Canadian journal of chemical engineering Vol. 92; no. 4; pp. 685 - 695
Main Authors: Sheibat-Othman, Nida, Laouti, Nassim, Valour, Jean-Pierre, Othman, Sami
Format: Journal Article
Language:English
Published: Blackwell Publishing Ltd 01-04-2014
Wiley
Subjects:
Automatic
Chemical and Process Engineering
chemical reactor
Engineering Sciences
Fault detection
fault detection and isolation
Faults
Nonlinear dynamics
observer
Observers
Polymerization
Reactors
Support vector machines
support vector machines (SVM)
Training
ACL, OK_US, PES, observer, chemical reactor, fault detection and isolation, support vector machines (SVM)
Online Access:Get full text
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Summary:A hybrid data/model‐based approach is proposed for fault detection and isolation for chemical reactions in jacketed stirred vessels. Using data‐based methods in high nonlinear systems requires training data to include a wide range of varying operations to ensure correct fault isolation. If such data is not available, a model‐based approach can be used to enhance fault isolation. But, observers require a relatively precise process model, which is also not always available. In this work, we propose to combine an observer with statistical data‐based methods (support vector machines, SVM) for fault detection in order to avoid at the time precise process modelling (necessary for model‐based approach) and great number of training data (necessary for data‐based approach). An interesting case study that falls in this category is a chemical stirred tank reactor, with high nonlinear reactions. Therefore, a simplified process model is used as a starting point to develop an observer for fault isolation. The used process model is corrected using information from SVM when no fault is detected. The methodology is validated experimentally in lab‐scale and pilot‐scale polymerisation reactors. For processes with linear dynamics, model‐free SVM classification was found sufficient to detect and isolate sensor and actuator faults.
Bibliography:istex:4E4CACB3B5F6051EF19F16BFCD4AF5576D9E005C
ArticleID:CJCE21881
ark:/67375/WNG-C36FZPBW-0
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SourceType-Scholarly Journals-1
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ISSN:0008-4034
1939-019X
DOI:10.1002/cjce.21881