Modern Drying Technology - Experimental TechniquesV 2
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More About This Title Modern Drying Technology - Experimental TechniquesV 2
English
This five-volume handbook provides a comprehensive overview of all important aspects of modern drying technology, including only cutting-edge results.
Volume 2 comprises experimental methods used in various industries and in research in order to design and control drying processes, measure moisture and moisture distributions, characterize particulate material and the internal micro-structure of dried products, and investigate the behavior of particle systems in drying equipment. Key topics include acoustic levitation, near-infrared spectral imaging, magnetic resonance imaging, X-ray tomography, and positron emission tracking.
Volume 2 comprises experimental methods used in various industries and in research in order to design and control drying processes, measure moisture and moisture distributions, characterize particulate material and the internal micro-structure of dried products, and investigate the behavior of particle systems in drying equipment. Key topics include acoustic levitation, near-infrared spectral imaging, magnetic resonance imaging, X-ray tomography, and positron emission tracking.
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Professor Dr. Ing. Evangelos Tsotsas holds the Chair of Thermal Process Engineering at Otto von Guericke University Magdeburg (Germany) since 1994. Prior to this, he was a Senior Process Specialist at the Dow Chemical Company. He has authored about 250 papers in refereed journals and conference proceedings, and is the recipient of the Hosokawa Award for Innovation and the ProcessNet Award for Excellence in Drying Research. He serves in various functions in organizations such as the German Research Foundation (DFG), the Alexander von Humboldt Foundation, and the European and German Working Party on Drying.
Professor Arun S. Mujumdar has been Professor of Chemical and Mechanical Engineering at the McGill University, Canada, and at the National University of Singapore. He has authored 2 books and over 60 book chapters, edited or co-edited over 50 books including the Handbook of Industrial Drying.Member of various professional and scientific associations, he was recently conferred Doctor Honoris Causa by the Technical University of Lodz, Poland, and the University of Lyon, France.
Professor Arun S. Mujumdar has been Professor of Chemical and Mechanical Engineering at the McGill University, Canada, and at the National University of Singapore. He has authored 2 books and over 60 book chapters, edited or co-edited over 50 books including the Handbook of Industrial Drying.Member of various professional and scientific associations, he was recently conferred Doctor Honoris Causa by the Technical University of Lodz, Poland, and the University of Lyon, France.
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MEASUREMENT OF AVERAGE MOISTURE CONTENT AND DRYING KINETICS FOR SINGLE PARTICLES, DROPLETS AND DRYERS
Introduction and Overview
Magnetic Suspension Balance
Infrared Spectroscopy and Dew Point Measurement
Coulometry and Nuclear Magnetic Resonance
Acoustic Levitation
Concluding Remarks
NEAR-INFRARED SPECTRAL IMAGING FOR VISUALIZATION OF MOISTURE DISTRIBUTION IN FOODS
Introduction
Principles of Near-Infrared Spectral Imaging
Image Processing
Applications of Near-Infrared Spectral Imaging for Visualization of Moisture Distribution
Future Outlook
MAGNETIC RESONANCE IMAGING FOR DETERMINATION OF MOISTURE PROFILES AND DRYING CURVES
Introduction
Principles of MRI for Determination of Moisture Profiles
MRI Applications to Drying of Paper, Pulp and Wood Samples
MRI Applications to Drying of Agricultural and Food Samples
Conclusion
USE OF X-RAY TOMOGRAPHY FOR DRYING-RELATED APPLICATIONS
Fundamentals and Principles
Instrumentation
Image Processing
Applications
Future Outlook
MEASURING TECHNIQUES FOR PARTICLE FORMULATION PROCESSES
Introduction
Measurement of Particle Size
Measurement of Particle Concentrations, Velocities, and Hydrodynamic Stability
Measurement of Mechanical Stability of Particles during Fluidized Bed Processing
Characterization of the Mechanical Properties of Partially and Fully Saturated Wet Granular Media
Conclusions
DETERMINATION OF PHYSICAL PROPERTIES OF FINE PARTICLES, NANOPARTICLES AND PARTICLE BEDS
Introduction of Common Particle Properties
Analysis of Particle Size Distribution
Measurement of the Physical Properties of Particles
Testing of Particle Bed Properties
Measurement of Particle Bed Movement in Rotary Drums by High-Speed Camera
Conclusions
Introduction and Overview
Magnetic Suspension Balance
Infrared Spectroscopy and Dew Point Measurement
Coulometry and Nuclear Magnetic Resonance
Acoustic Levitation
Concluding Remarks
NEAR-INFRARED SPECTRAL IMAGING FOR VISUALIZATION OF MOISTURE DISTRIBUTION IN FOODS
Introduction
Principles of Near-Infrared Spectral Imaging
Image Processing
Applications of Near-Infrared Spectral Imaging for Visualization of Moisture Distribution
Future Outlook
MAGNETIC RESONANCE IMAGING FOR DETERMINATION OF MOISTURE PROFILES AND DRYING CURVES
Introduction
Principles of MRI for Determination of Moisture Profiles
MRI Applications to Drying of Paper, Pulp and Wood Samples
MRI Applications to Drying of Agricultural and Food Samples
Conclusion
USE OF X-RAY TOMOGRAPHY FOR DRYING-RELATED APPLICATIONS
Fundamentals and Principles
Instrumentation
Image Processing
Applications
Future Outlook
MEASURING TECHNIQUES FOR PARTICLE FORMULATION PROCESSES
Introduction
Measurement of Particle Size
Measurement of Particle Concentrations, Velocities, and Hydrodynamic Stability
Measurement of Mechanical Stability of Particles during Fluidized Bed Processing
Characterization of the Mechanical Properties of Partially and Fully Saturated Wet Granular Media
Conclusions
DETERMINATION OF PHYSICAL PROPERTIES OF FINE PARTICLES, NANOPARTICLES AND PARTICLE BEDS
Introduction of Common Particle Properties
Analysis of Particle Size Distribution
Measurement of the Physical Properties of Particles
Testing of Particle Bed Properties
Measurement of Particle Bed Movement in Rotary Drums by High-Speed Camera
Conclusions
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“The book will be of particular interest to chemical engineers involved with unit operations.” (The Catalyst, 1 April 2011)
