Mathematical Modeling Of Food Processing

Author: Mohammed M. Farid
Publisher: CRC Press
ISBN: 9781420053548
Size: 23.85 MB
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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 processing. After introducing the fundamentals of heat, mass, and momentum transfer as well as computational fluid dynamics (CFD), the book focuses on specialized topics in food processing. It covers thermal, low temperature, non-thermal, and non-conventional thermal processing, along with the analysis of biological and enzyme reactors. The book also explores the use of artificial neural networks, exergy analysis, process control, and cleaning-in-place (CIP) systems in industry. With the availability of high speed computers and advances in computational techniques, the application of mathematical modeling in food science and engineering is growing. This comprehensive volume provides up-to-date, wide-ranging material on the mathematical analysis of transport phenomena in food.

Engineering Aspects Of Thermal Food Processing

Author: Ricardo Simpson
Publisher: CRC Press
ISBN: 9781420058598
Size: 57.50 MB
Format: PDF, Docs
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Access the Latest Advances in Food Quality Optimization and Safety Assurance Thermal processing has undergone a remarkable amount of research throughout the past decade, indicating that the process not only remains viable, but that it is also expanding around the world. An organized exploration of new developments in academic and current food industry practices, Engineering Aspects of Thermal Food Processing presents groundbreaking advances in the physical and engineering aspects of thermal food processing, paying particular attention to modeling, simulation, optimization, online control, and automation. Divided into Four Cohesive Sections Under the editorial guidance of a leading thermal processing authority, the book first covers the fundamentals and new processes in the thermal processing industry, including new packaging materials like retortable pouches. The second section moves on to mathematical modeling and simulation, which also addresses emerging preservation technology such as ohmic heating. The third section of the book is devoted to optimization, recognizing that mathematical optimization is the key ingredient for computing optimal operating policies and building advanced decision support systems. This section discusses processes like thermal sterilization, microwave processing, and in-line aseptic processing as well as an analysis of plant production productivity. The final section examines online control and automation describing a practical and efficient strategy for on-line correction of thermal process deviations during retort sterilization of canned foods. Concluding with expert analysis and discussion of the manufacturers’ businesses in today’s competitive marketplace, Engineering Aspects of Thermal Food Processing explores the entire processing line from modeling through optimization. It effectively assists manufacturers in maintaining a seamless workflow while lowering their bottom lines.

Automation For Food Engineering

Author: Yanbo Huang
Publisher: CRC Press
ISBN: 1420039024
Size: 39.65 MB
Format: PDF, Kindle
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In the past ten years electronics and computer technologies have significantly pushed forward the progress of automation in the food industry. The application of these technologies to automation for food engineering will produce more nutritious, better quality, and safer items for consumers. Automation for Food Engineering: Food Quality Quantization and Process Control explores the usage of advanced methods, such as wavelet analysis and artificial neural networks, to automated food quality evaluation and process control. It introduces novel system prototypes, such as machine vision, elastography, and the electronic nose, for food quality measurement, analysis, and prediction. The book discusses advanced techniques, such as medical imaging, mathematical analysis, and statistical modeling, which have proven successful in food engineering. The authors use the characteristics of food processes to describe concepts, and they employ data from food engineering applications to explain the methods. To aid in the comprehension of technical information, they provide real-world examples and case studies from food engineering projects. The material covers the frameworks, techniques, designs, algorithms, tests and implementation of data acquisition, analysis, modeling, prediction, and control in automation for food engineering. It demonstrates the techniques for automation of food engineering, and helps you in the development of techniques for your own applications. Automation for Food Engineering: Food Quality Quantization and Process Control is the first and only book that gives a systematical study and summary about concepts, principles, methods, and practices in food quality quantization and process control.

Optimization In Food Engineering

Author: Ferruh Erdogdu
Publisher: CRC Press
ISBN: 1420061429
Size: 22.37 MB
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While mathematically sophisticated methods can be used to better understand and improve processes, the nonlinear nature of food processing models can make their dynamic optimization a daunting task. With contributions from a virtual who’s who in the food processing industry, Optimization in Food Engineering evaluates the potential uses and limitations of optimization techniques for food processing, including classical methods, artificial intelligence-genetic algorithms, multi-objective optimization procedures, and computational fluid dynamics. The book begins by delineating the fundamentals and methods for analytical and numerical procedures. It then covers optimization techniques and how they specifically apply to food processing. The final section digs deep into fundamental food processes and provides detailed explanation and examples from the most experienced and published authors in the field. This includes a range of processes from optimization strategies for improving the performance of batch reactors to the optimization of conventional thermal processing, microwave heating, freeze drying, spray drying, and refrigeration systems, to structural optimization techniques for developing beverage containers, optimization approaches for impingement processing, and optimal operational planning methodologies. Each chapter presents the required parameters for the given process with the optimization procedure to apply. An increasing part of the food processor’s job is to optimize systems to squeeze more dollars out of overhead to offset rising utility and transportation costs. Logically combining optimization techniques from many sources into a single volume focused on food production processes, this book provides real solutions to increases in energy, healthcare, and product liability costs that impact the bottom line in food production.

Food Engineering Handbook

Author: Theodoros Varzakas
Publisher: CRC Press
ISBN: 1482261669
Size: 79.71 MB
Format: PDF, Kindle
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Food Engineering Handbook: Food Process Engineering addresses the basic and applied principles of food engineering methods used in food processing operations around the world. Combining theory with a practical, hands-on approach, this book examines the thermophysical properties and modeling of selected processes such as chilling, freezing, and dehydration. A complement to Food Engineering Handbook: Food Engineering Fundamentals, this text: Discusses size reduction, mixing, emulsion, and encapsulation Provides case studies of solid–liquid and supercritical fluid extraction Explores fermentation, enzymes, fluidized-bed drying, and more Presenting cutting-edge information on new and emerging food engineering processes, Food Engineering Handbook: Food Process Engineering is an essential reference on the modeling, quality, safety, and technologies associated with food processing operations today.

Computational Fluid Dynamics In Food Processing

Author: Da-Wen Sun
Publisher: CRC Press
ISBN: 9781420009217
Size: 63.81 MB
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The implementation of early-stage simulation tools, specifically computational fluid dynamics (CFD), is an international and interdisciplinary trend that allows engineers to computer-test concepts all the way through the development of a process or system. With the enhancement of computing power and efficiency, and the availability of affordable CFD packages, the applications of CFD have extended into the food industry for modeling industrial processes, performing comprehensive analyses, and optimizing the efficiency and cost effectiveness of the new processes and systems. Beginning a new series dedicated to contemporary, up-to-date food engineering practices, Computational Fluid Dynamics in Food Processing is the first book of its kind to illustrate the use of CFD for solving heat and mass transfer problems in the food industry. Using a computational grid, CFD solves governing equations that describe fluid flow across each grid cell by means of an iterative procedure in order to predict and visualize the profiles of velocity, temperature, pressure, and other parameters. Starting with an overview of CFD technology and applications, the book illustrates the use of CFD for gaining a qualitative and quantitative assessment of the performance of processes involving heat and mass transfer. Specific chapters cover airflow in refrigerated trucks, retail display cabinets, microwaves, and doorways; velocity in meat dryers and spray drying; thermal sterilization; plate heat exchangers; membrane separation systems; jet impingement ovens; food extrusion and high-pressure processing; prediction of hygiene; design of biosensors; and the fermentation of tea and ripening of cheese. Drawing from an esteemed panel of international professionals and academics, this groundbreaking bookprovides engineers and technologists in research, development, and operations with critical, comprehensive, and readily accessible information on the art and science of CFD technology.

Advances In Food Dehydration

Author: Cristina Ratti
Publisher: CRC Press
ISBN: 9781420052534
Size: 45.69 MB
Format: PDF, ePub, Mobi
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Comprehensive Assessment of This Globally Relevant Practice As a centuries-old food preservation method, dehydration technology has advanced significantly in the past decades as a result of new methods, sophisticated analytical techniques, and improved mathematical modeling. Providing practical and expert insight from an international panel of experts, Advances in Food Dehydration encompasses these revolutionary advances and effectively supplies the knowledge base required to optimize natural resources and reduce energy requirements in order to meet growing demand for low-cost, high-quality food products. Discusses Ways to Best Optimize Natural Resources Under the editorial guidance of food engineering and dehydration authority Cristina Ratti, this resource addresses the three biggest challenges associated with food dehydration: The complex nature of food systems together with the deep structural and physico-chemical changes that foodstuffs undergo during processing The difficulty to define quality in quantitative terms and to develop appropriate control techniques The lack of realistic models and simulations to represent the phenomena The book’s well-developed chapters explain the structural and physico-chemical changes that food undergoes during dehydration, while discussing ways to optimize natural resources. In addition to describing non-convectional heating sources such as microwaves, infrared, and radio frequency, the text also examines the impact of drying on nutraceutical compounds, the bases of rehydration of dry food particles and the stresses on microorganisms during drying and their stability during storage. Advances in Food Dehydration is a user-friendly volume that concisely links the gamut of dehydration concepts into one cohesive reference. About the Editor: Cristina Ratti, Ph.D., is a food engineering professor in the Soils and Agri-Food Engineering Department at the Université Laval (Quebec). She is the coordinator of the Food Engineering Program and a member of the Institute of Nutraceutical and Function Foods (INAF). She has published numerous scientific manuscripts related to her research interests in food dehydration as well as physiochemical and quality properties of foodstuffs related to drying.

Handbook Of Frozen Food Processing And Packaging

Author: Da-Wen Sun
Publisher: CRC Press
ISBN: 1420027409
Size: 56.41 MB
Format: PDF, ePub, Docs
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Frozen foods make up one of the biggest sectors in the food industry. Their popularity with consumers is due primarily to the variety they offer and their ability to retain a high standard of quality. Thorough and authoritative, the Handbook of Frozen Food Processing and Packaging provides the latest information on the art and science of correctly handling and containing frozen foods. The book is divided into five parts for ease of accessibility and comprehension. Fundamentals of Freezing explains the basics of freezing. Facilities for the Cold Chain focuses on freezing-related equipment and facilities. Quality and Safety of Frozen Foods stresses the importance of quality, safety, and the nutritional values of frozen foods. Monitoring and Measuring Techniques for Quality and Safety describes the methods and techniques used to measure and maintain the quality and safety of frozen foods. The final part, Packaging of Frozen Foods discusses topics such as the various packaging materials used, a description of packaging machinery, and the future developments foreseen in frozen food packaging. Providing chapters written by authors with esteemed academic and professional credentials, the Handbook of Frozen Food Processing and Packaging is an essential resource for scientists in the frozen food industry.

Physicochemical Aspects Of Food Engineering And Processing

Author: Sakamon Devahastin
Publisher: CRC Press
ISBN: 1439857741
Size: 15.95 MB
Format: PDF, Kindle
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Physical and chemical interactions between various constituents resulting from processing operations often lead to physical, sensory, and nutritional changes in foods. Combining important information on processing and food quality, Physicochemical Aspects of Food Engineering and Processing describes the effects of various processing technologies on quality changes of different major foods in an integrative manner. Written by Physicochemical Experts in Food Engineering & Processing Part I critically reviews the physicochemical property changes of different foods undergoing selected processes, such as microencapsulation, frying, microwave-assisted thermal processing, high-pressure processing, pulsed electric field processing, and freezing. This section also includes a chapter on the effects of various processing technologies on microbial growth and inactivation. Part II focuses on multiphase food systems made of proteins, seafoods, red meats, and pet foods, and the physicochemical changes they undergo when being processed. Physicochemical Aspects of Food Engineering and Processing covers the engineering, processing, and quality angles equally. It is an extremely useful resource for academic and industrial researchers seeking an up-to-date overview of the increasingly important combination of both sides of food research and development.

Thermal Food Processing

Author: Da-Wen Sun
Publisher: CRC Press
ISBN: 1439876797
Size: 60.45 MB
Format: PDF
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Thermal processing remains one of the most important processes in the food industry. Now in its second edition, Thermal Food Processing: New Technologies and Quality Issues continues to explore the latest developments in the field. Assembling the work of a worldwide panel of experts, this volume highlights topics vital to the food industry today and pinpoints the trends in future research and development. Topics discussed include: Thermal properties of foods, including heat capacity, conductivity, diffusivity, and density Heat and mass transfer and related engineering principles, mechanisms, and models The development and application of deterministic heat transfer models for predicting internal product temperatures Modeling thermal processing using artificial neural networks (ANN) and computational fluid dynamics (CFD) Thermal processing of meat, poultry, fish, and dairy products; canned foods; ready meals; and vegetables The effect of ultrahigh temperature (UHT) treatment processing on milk, including the impact on nutrient composition, safety, and organoleptic aspects Ohmic, radio frequency (RF) dialectric, infrared, and pressure-assisted heating pH-assisted thermal processing In addition to updating all content, this second edition includes five new chapters: Thermal Effects in Food Microbiology, Modeling Thermal Microbial Inactivation Kinetics, Thermal Processing of Food and Fruit Juices, Aseptic Processing and Packaging, and Microwave Heating. The final chapter of the book examines systems used in the evaluation of thermal processes and the development of time temperature integrators (TTIs) to ensure the safety of thermally processed food. An up-to-date survey of essential techniques and the science behind them, this volume is a critical reference for food industry professionals.