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Showing 1 - 6 of 6 matches in All Departments
Food Storage Stability addresses one of the foremost problems faced by food processors - how to stabilize food once it is harvested. Using a holistic approach, the book discusses the changes responsible for food quality deterioration and considers strategies for minimizing or eliminating these degradative changes. Topics include: consumer perceptions and preferences, cellular changes, conversion of major constituents to more stable products, the effect of color and texture, packaging issues, and practical strategies for storing foods frozen, chilled, or at ambient temperature. Food Storage Stability is the only treatment of this subject that covers the diverse factors that influence quality retention in foods and integrates basic concepts in storage stability with practical applications. Food scientists and technologists concerned with changes in food quality are interested in ensuring that safe and appealing food products reach consumers - this is the book that will assist them with that important goal.
Written from the expertise of an agricultural engineering background, this exciting new book presents the most useful numerical methods and their complete program listings.
Introduction to Food Engineering, Sixth Edition brings a much more in-depth and didactic presentation of classic food engineering topics, such as the relationship of engineering to the chemistry, microbiology, nutrition and processing of foods. The book brings more quantitative analyses and problem-solving content, adding more descriptive topics at the end of each chapter to facilitate teaching and student comprehension. Topics cover engineering fundamentals, principles of food processing and preservation operations, solids handling, microbial bioreactions, inactivation and inhibition of microorganisms, and a brief Introduction to economic considerations and regulations. This approach facilitates comprehensive learning that has proven valuable beyond the classroom as a lifetime professional reference.
Food engineering has become increasingly important in the food industry over the years, as food engineers play a key role in developing new food products and improved manufacturing processes. While other textbooks have covered some aspects of this emerging field, this is the first applications-oriented handbook to cover food engineering processes and manufacturing techniques.
Cereals, legumes, oilseeds, fruits, and vegetables are the most important food crops in the world, with cereal grains contributing the bulk of food calories and proteins worldwide. Generally, the supply of grains and other food can be enhanced by increasing production and by reducing postharvest losses. While food production has increased significantly over the last few decades, minimizing huge postharvest losses as well as utilizing their by-products/wastes is the optimal way for a country to become self-sufficient in food. Postharvest Technology and Food Process Engineering combines these two subject areas as it covers both the primary processing of cereals, pulses, fruits, and vegetables and utilization of by-products/biomass. This book covers postharvest food preservation and processing methods, with an emphasis on grains. It is divided into five parts: Grain-Properties, Drying and Dryers Grain Storage Parboiling and Milling By-Products/Biomass Utilization Food Process Engineering The text covers grain structure and composition, psychrometry, the theory and methods of grain drying, and design, testing, specification and selection of grain dryers. It describes processes such as parboiling of grain, hydrothermal treatment of grain, and milling of rice and other grains and pulses. The text also addresses biomass utilization and conversion technologies for energy, chemicals, food, and feed. The final section on food process engineering examines postharvest management including cooling, and packaging, and discusses preservation and processing, factors that affect deterioration, and various industrial preservation methods of fruits and vegetables. It also provides an overview of food chemistry and covers food engineering operations, including fluid mechanics and heat transfer.
Cereals, legumes, oilseeds, fruits, and vegetables are the most
important food crops in the world, with cereal grains contributing
the bulk of food calories and proteins worldwide. Generally, the
supply of grains and other food can be enhanced by increasing
production and by reducing postharvest losses. While food
production has increased significantly over the last few decades,
minimizing huge postharvest losses as well as utilizing their
by-products/wastes is the optimal way for a country to become
self-sufficient in food. Postharvest Technology and Food Process
Engineering combines these two subject areas as it covers both the
primary processing of cereals, pulses, fruits, and vegetables and
utilization of by-products/biomass.
The text covers grain structure and composition, psychrometry, the theory and methods of grain drying, and design, testing, specification and selection of grain dryers. It describes processes such as parboiling of grain, hydrothermal treatment of grain, and milling of rice and other grains and pulses. The text also addresses biomass utilization and conversion technologies for energy, chemicals, food, and feed. The final section on food process engineering examines postharvest management including cooling, and packaging, and discusses preservation and processing, factors that affect deterioration, and various industrial preservation methods of fruits and vegetables. It also provides an overview of food chemistry and covers food engineering operations, including fluid mechanics and heat transfer.
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