Written by international experts from industry, research centers, and academia, Mathematical Modeling of Food Processing discusses the physical and mathematical analysis of transport phenomena associated with food processing. The models presented describe many of the important physical and biological transformations that occur in food during proces
Computational modeling is an important tool for understanding and improving food processing and manufacturing. It is used for many different purposes, including process design and process optimization. However, modeling goes beyond the process and can include applications to understand and optimize food storage and the food supply chain, and to perform a life cycle analysis. Modeling Food Processing Operations provides a comprehensive overview of the various applications of modeling in conventional food processing. The needs of industry, current practices, and state-of-the-art technologies are examined, and case studies are provided. Part One provides an introduction to the topic, with a particular focus on modeling and simulation strategies in food processing operations. Part Two reviews the modeling of various food processes involving heating and cooling. These processes include: thermal inactivation; sterilization and pasteurization; drying; baking; frying; and chilled and frozen food processing, storage and display. Part Three examines the modeling of multiphase unit operations such as membrane separation, extrusion processes and food digestion, and reviews models used to optimize food distribution. - Comprehensively reviews the various applications of modeling in conventional food processing - Examines the modeling of multiphase unit operations and various food processes involving heating and cooling - Analyzes the models used to optimize food distribution
This book presents the results of extensive research on the mathematical modelling of the blast furnace process. It describes the mathematical models utilised, providing insights into two-dimensional models of gas dynamics, heat transfer and reduction, the cohesion zone, and the balance equilibrium model. On the basis of these models, it details a method for the analytical study of the blast-furnace process, which essentially complements the experimental methods used in practice. Examples of the solution of practical problems of blast furnace smelting are also provided, and the mathematical models highlighted here can be used in research and design institutes, at metallurgical enterprises and for higher education institutions in the training of students in metallurgical specialties.
Written by international experts from industry, research centers, and academia, Mathematical Modeling of Food Processing discusses the physical and mathematical analysis of transport phenomena associated with food processing. The models presented describe many of the important physical and biological transformations that occur in food during proces
Food process modelling provides an authoritative review of one of the most exciting and influential developments in the food industry. The modelling of food processes allows analysts not only to understand such processes more clearly but also to control them more closely and make predictions about them. Modelling thus aids the search for greater and more consistent food quality. Written by a distinguished international team of experts, Food process modelling covers both the range of modelling techniques and their practical applications across the food chain.
The Book Tries To Make The Reader Understand The Food Processing Operations Through A Comprehensive Numerical Problem.Understanding Of The Operations Becomes Deeper When The Reader Solves The Exersise Problems Given Under Each Of The Operations. Answer To Most Of The Numerical Problems Have Been Provided In The Book. The Proposed Book Is Unique As It Includes (I) Comprehensive Numerical Problem Based On Actual Data Taken During Food Processing Operations (Ii) Mathematical Modelling Of The Processing Operations (Iii) Solutions Of The Numerical Problem Based On Mathematical Models Developed (Iv) Exersise Problems And (V) Inclusion Of Matlab Program In The Book. The Program Will Help The Reader To Find Out The Value Of The Responces As Affected By Varying The Independent Variables To Different Levels.Most Of The Materials Havebeen Class Tested Through The Teaching Of The Subjects. E.G., Food Processing Operations, Transfer Processes In Food Materials And Food Process Modelling And Evaluation. Content Highlights : - Part-I : Mechanical Operations : Size Reduction And Practice Size Analysis# High Pressure Homoginization. # Flexible Packaging And Shelf Life Prediction# Modified Atmosphere Packaging And Storage. # Single Screw Extrusion. # Seperation Of Liquids In Disk Type Centrifugal Seperator. # Seperation And Convaying On Oscillating Tray Surface. # Solid MixingsPart-Ii : Thermal Operations : Comparing Saturated And Flue Gas As Heat Transfer Media. # Liquid Heating In Plate Heat Exchanger. # Liquid Heating In Helical Tube Heat Exchanger. # Air Heating In Extended Surface Heat Exchanger. # In-Bottle Serialization. # Fluid Bed Freezing. # Concentration In Raising Film Evaporator. # Concentration In Falling Film Multistage Mechanical Vapour Recompression Evaporator. # Concentration In Scraped Surface Evaporator. # Osmo-Concentration In Fruit Solid. # Differential And Flash Distillation. # Air-Recirculatory Tray Drying. # Vaccum Drying. # Spray Drying. # Freeze Drying. # Hot Air Puffing.Part-Iii : Experimentation And Optimization : Empirical Model Development# Sensory Evaluation Using Fuzzy Logic. # Index
Employing a practical, "learn by doing" approach, this first-rate text fosters the development of the skills beyond the pure mathematics needed to set up and manipulate mathematical models. The author draws on a diversity of fields — including science, engineering, and operations research — to provide over 100 reality-based examples. Students learn from the examples by applying mathematical methods to formulate, analyze, and criticize models. Extensive documentation, consisting of over 150 references, supplements the models, encouraging further research on models of particular interest. The lively and accessible text requires only minimal scientific background. Designed for senior college or beginning graduate-level students, it assumes only elementary calculus and basic probability theory for the first part, and ordinary differential equations and continuous probability for the second section. All problems require students to study and create models, encouraging their active participation rather than a mechanical approach. Beyond the classroom, this volume will prove interesting and rewarding to anyone concerned with the development of mathematical models or the application of modeling to problem solving in a wide array of applications.
Presenting mathematical prerequisites in summary tables, this book explains fundamental techniques of mathematical modeling processes essential to the food industry. The author focuses on providing an in-depth understanding of modeling techniques, rather than the finer mathematical points. Topics covered include modeling of transport phenomena, kinetic processes, and food engineering operations. The book also discusses statistical process analysis and quality control. It includes examples from almost every conceivable food process, most of which are based on real data given in the many references. Each example is followed by a clear, step-by-step worked solution.
The level of quality that food maintains as it travels down the production-to-consumption path is largely determined by the chemical, biochemical, physical, and microbiological changes that take place during its processing and storage. Authored by an internationally respected food quality expert, Kinetic Modeling of Reactions in Foods demonstrates
Written by experts from all over the world, the book comprises the latest applications of mathematical and models in food engineering and fermentation. It provides the fundamentals on statistical methods to solve standard problems associated with food engineering and fermentation technology. Combining theory with a practical, hands-on approach, this book covers key aspects of food engineering. Presenting cuttingedge information, the book is an essential reference on the fundamental concepts associated with food engineering.
