Haccp With Multivariate Process Monitoring and Fault Diagnosis Techniques: Application To a Food Pasteurization Process
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Open Access Color
BRONZE
Green Open Access
Yes
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No
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Abstract
Multivariate statistical process monitoring (SPM), and fault detection and diagnosis (FDD) methods are developed to monitor the critical control points (CCPs) in a continuous food pasteurization process. Multivariate SPM techniques effectively use information from all process variables to detect abnormal process behavior. Fault diagnosis techniques isolate the source cause of the deviation in process variable(s). The methods developed are illustrated by implementing them to monitor the critical control points and diagnose causes of abnormal operation of a high temperature short time (HTST) pasteurization pilot plant. The detection power of multivariate SPM and FDD techniques over univariate SPM techniques is shown and their integrated use to ensure the product safety and quality in food processes is demonstrated.
Description
Keywords
Diagnostic procedure, Fault diagnosis, Food processing, Multivariate statistical process monitoring, Multivariate statistical process monitoring, Food processing, Diagnostic procedure, Fault diagnosis
Fields of Science
0404 agricultural biotechnology, 04 agricultural and veterinary sciences, 0405 other agricultural sciences
Citation
Tokatlı, E.F., Çınar, A., and Schlesser, J.E. (2005). HACCP with multivariate process monitoring and fault diagnosis techniques: Application to a food pasteurization process. Food Control, 16(5), 411-422. doi:10.1016/j.foodcont.2004.04.008
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OpenCitations Citation Count
15
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Volume
16
Issue
5
Start Page
411
End Page
422
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