The Process Analytical Technology (PAT) initiative aims to move from a paradigm of ‘testing quality in’ to ‘building quality in by design’. It can be defined as the optimal application of process analytical technologies, feedback process control strategies, information management tools, and/or product–process optimization strategies.Recently, there have been significant advances in process sensors and in model-based monitoring and control methodologies, leading to enormous opportunities for improved performance of food manufacturing processes and for the quality of food products with the adoption of PAT. Improvements in process efficiency, reduced product variability, enhanced traceability, process understanding, and decreased risk of contamination are some of the benefits arising from the introduction of a PAT strategy in the food industry.Process Analytical Technology for the Food Industry reviews established and emerging PAT tools with potential application within the food processing industry. The book will also serve as a reference for industry, researchers, educators, and students by providing a comprehensive insight into the objectives, challenges, and benefits of adopting a Process Analytical Technology strategy in the food industry.
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Process Analytical Technology for the Food Industry
Benefits and challenges of adopting PAT for the food industry.- Multivariate Data Analysis (Chemometrics).- Management Systems.- Infrared spectroscopy.- Raman Spectroscopy.- Magnetic Resonance Imaging and Nuclear Magnetic Resonance Spectroscopy.- Computer vision.- Thermal imaging.- Hyperspectral Imaging.- Diagnostic ultrasound.- Emerging PAT technologies.- Food industry perspectives on the implementation of a PAT strategy.
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 The Process Analytical Technology (PAT) initiative aims to move from a paradigm of ‘testing quality in’ to ‘building quality in by design’. It can be defined as the optimal application of process analytical technologies, feedback process control strategies, information management tools, and/or product–process optimization strategies. Recently, there have been significant advances in process sensors and in model-based monitoring and control methodologies, leading to enormous opportunities for improved performance of food manufacturing processes and for the quality of food products with the adoption of PAT. Improvements in process efficiency, reduced product variability, enhanced traceability, process understanding, and decreased risk of contamination are some of the benefits arising from the introduction of a PAT strategy in the food industry. Process Analytical Technology for the Food Industry reviews established and emerging PAT tools with potential application within the food processing industry. The book will also serve as a reference for industry, researchers, educators, and students by providing a comprehensive insight into the objectives, challenges, and benefits of adopting a Process Analytical Technology strategy in the food industry.About the EditorsProfessor Colm O'Donnell is Vice Principal (Teaching & Learning) in the College of Engineering and Architecture at University College Dublin. He leads a research team working on a range of PAT and Novel Processing Technology research projects in the UCD School of Biosystems Engineering. He has published widely in the area of PAT for dairy processing and holds two patents in this area. Dr. Colette Fagan is a Lecturer in Food Processing Science and Director of the Food Processing Centre at the University of Reading. Her research focuses on PAT, in particular its application to dairy processing. She has published over 40 journal papersand book chapters and holds two patents for novel sensing technologies used in the control of dairy processing. Dr. PJ Cullen teaches process engineering at the School of Chemical Engineering, University of New South Wales, Sydney, Australia. His current research interests include the development of novel hyperspectral, multipoint spectroscopy and particle imaging systems for process control. He initiated the “Food Quality, Safety & Analysis” sessions at IFPAC, the world’s leading PAT conference, and is a member of its organizing committee. He has published over 100 journal papers and book chapters.  
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Comprehensive reference for industry, researchers, educators and students Insight into the objectives, challenges and benefits of adopting a Process Analytical Technology strategy in the food industry Reviews established and emerging PAT tools Includes supplementary material: sn.pub/extras
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Produktdetaljer

ISBN
9781493903108
Publisert
2014-11-04
Utgiver
Vendor
Springer-Verlag New York Inc.
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Professional/practitioner, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Om bidragsyterne

Dr PJ Cullen lectures and co-ordinates process engineering research in Dublin Institute of Technology. His current research interests include the development of novel hyperspectral, multipoint and 3D imaging systems for process control. He initiated the “Food Quality, Safety & Analysis” sessions at IFPAC the world’s leading PAT conference and has served on its organising committee since. He has published over 100 journal papers & book chapters.

Professor Colm O'Donnell is Vice Principal of Teaching & Learning in the UCD College of Engineering and Architecture where he leads a research team working on a range of Process Analytical Technology and Novel Processing Technology research projects in the School of Biosystems Engineering. He has published widely in the area of process analytical technology for dairy processing and holds two patents in this area. He is Editor of the International Journal of Food Properties and an Associate Editor (Food Engineering) of Transactions of the American Society of Agricultural and Biological Engineers.

Dr Colette Fagan is a Lecturer in Food Processing Science and Director of the Food Processing Centre at the University of Reading. Her research focuses on Process Analytical Technology and in particular its application to dairy processing. She has published over 40 journal papers & book chapters and holds two patents for novel sensing technologies used in the control of dairy processing.