Authored by world experts, the Handbook of Food Processing, Two-Volume Set discusses the basic principles and applications of major commercial food processing technologies. The handbook discusses food preservation processes, including blanching, pasteurization, chilling, freezing, aseptic packaging, and non-thermal food processing. It describes common food engineering unit operations as well as preservation processes required to convert raw materials into final products. Also covered are topics surrounding food safety and quality. Highlights: Case study on the effect of blanching conditions on sulforaphane content in purple and roman cauliflower (brassica oleracea l. Var. Botrytis) Principles of thermal processing described along with thermal process calculations Case study on microwave preservation of fruit-based products: application to kiwifruit puree Principles and applications of Ohmic heating Advances in food additives and contaminants Use of edible films and coatings in fresh fruits and vegetables preservation Handling and management of raw materials of foods Sensory evaluation of foods Hygiene and food sanitation Case studies on the implementation of ISO22000, HACCP, and other management tools for the implementation of food safety-traceability Food waste management case studies from the food industry along with life cycle analysis This two-volume set brings together aspects of food preservation and food processing operations methods of the basic food manufacturing processes addressing the relevant food safety and quality issues. Taking an innovative approach, the editors combine coverage of food preservation methods, the equipment needed to carry them out, and food processing operations methods of basic food manufacturing processes. The set helps you keep up with diverse consumer demands and rapidly developing markets.

Sweeteners: Nutritional Aspects, Applications, and Production Technology explores all essential aspects of sugar-based, natural non-sugar-based, and artificial sweeteners. The book begins with an overview presenting general effects, safety, and nutrition. Next, the contributors discuss sweeteners from a wide range of scientific and lifestyle perspectives. Topics include: The chemistry and functional properties of monosaccharides, oligosaccharides, polysaccharides, and sugar polyols Analytical methodologies for determining low-calorie nonnutritive sweeteners Honey, syrups, and their physicochemical aspects and applications Sweeteners such as "sykin" and raisin, prune, apple, and grape juice concentrate Quality control, production, handling, storage, safety, legislation, and risk assessment of sweeteners The impact of sweeteners and sugar alternatives on nutrition and health Environmental and health concerns from the use of genetically modified (GM) herbicide-tolerant sugar beets and GM high fructose corn syrup Inulin and oligofructose as soluble dietary fibers derived from chicory root As manufacturers strive to produce healthier and safer products with better taste, new avenues of inquiry are opening up with respect to both the sources and the processing of sweeteners. This volume provides a solid starting point for researchers and product developers in the food and beverage industry.

Packed with case studies and problem calculations, Handbook of Food Processing: Food Safety, Quality, and Manufacturing Processes presents the information necessary to design food processing operations and describes the equipment needed to carry them out in detail. It covers the most common and new food manufacturing processes while addressing relevant food safety and quality issues. The inclusion of case studies and problem calculations in most chapters differentiates this book from other books on food processing and engineering. Highlights: Handling and management of raw materials of foods Sensory evaluation of foods Hygiene and food sanitation Case studies on the implementation of ISO22000, HACCP, and other management tools for the implementation of food safety-traceability Food waste management case studies from the food industry along with life cycle analysis The book explores food manufacturing from dairy, bakery and confectionery, fruits and vegetables, and nonalcoholic and alcoholic beverages to chocolate, oils and fats, meat, poultry, seafood, snacks, and functional foods with a case study on nutraceuticals. It presents an analysis of flavor production, highlighting the characterization of aroma compounds, the description of aroma compounds found in vegetables and fruits, and the reactions that thermally generate aroma in foods. It also examines food quality and safety requirements throughout, including raw materials handling, sensory evaluation of foods, hygiene and food sanitation, ISO22000, HACCP, and food waste management. The book helps you keep up with diverse consumer demands and rapidly developing markets.

Food Engineering Handbook, Two-Volume Set provides a stimulating and up-to-date review of food engineering phenomena. It also 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 set examines the thermophysical properties and modeling of selected processes such as chilling, freezing, and dehydration, and covers the key aspects of food engineering, from mass and heat transfer to steam and boilers, heat exchangers, diffusion, and absorption. Comprised of Food Engineering Handbook: Food Engineering Fundamentals and Food Engineering Handbook: Food Process Engineering, this comprehensive resource: Explains the interactions between different food constituents that might lead to changes in food properties Describes the characterization of the heating behavior of foods, their heat transfer, heat exchangers, and the equipment used in each food engineering method Discusses rheology, fluid flow, evaporation, distillation, size reduction, mixing, emulsion, and encapsulation Provides case studies of solid-liquid and supercritical fluid extraction and food behaviors Explores fermentation, enzymes, fluidized-bed drying, and more Presenting cutting-edge information on new and emerging food engineering processes, Food Engineering Handbook, Two-Volume Set offers a complete reference on the fundamental concepts, modeling, quality, safety, and technologies associated with food engineering and processing operations today.

Food Engineering Handbook: Food Engineering Fundamentals provides a stimulating and up-to-date review of food engineering phenomena. Combining theory with a practical, hands-on approach, this book covers the key aspects of food engineering, from mass and heat transfer to steam and boilers, heat exchangers, diffusion, and absorption. A complement to Food Engineering Handbook: Food Process Engineering, this text: Explains the interactions between different food constituents that might lead to changes in food properties Describes the characterization of the heating behavior of foods, their heat transfer, heat exchangers, and the equipment used in each food engineering method Discusses rheology, fluid flow, evaporation, and distillation and includes illustrative case studies of food behaviors Presenting cutting-edge information, Food Engineering Handbook: Food Engineering Fundamentals is an essential reference on the fundamental concepts associated with food engineering today.

Sweeteners: Nutritional Aspects, Applications, and Production Technology explores all essential aspects of sugar-based, natural non-sugar-based, and artificial sweeteners. The book begins with an overview presenting general effects, safety, and nutrition. Next, the contributors discuss sweeteners from a wide range of scientific and lifestyle perspectives. Topics include:

• The chemistry and functional properties of monosaccharides, oligosaccharides, polysaccharides, and sugar polyols
• Analytical methodologies for determining low-calorie nonnutritive sweeteners
• Honey, syrups, and their physicochemical aspects and applications
• Sweeteners such as "sykin" and raisin, prune, apple, and grape juice concentrate
• Quality control, production, handling, storage, safety, legislation, and risk assessment of sweeteners
• The impact of sweeteners and sugar alternatives on nutrition and health
• Environmental and health concerns from the use of genetically modified (GM) herbicide-tolerant sugar beets and GM high fructose corn syrup
• Inulin and oligofructose as soluble dietary fibers derived from chicory root

As manufacturers strive to produce healthier and safer products with better taste, new avenues of inquiry are opening up with respect to both the sources and the processing of sweeteners. This volume provides a solid starting point for researchers and product developers in the food and beverage industry.

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.

Packed with case studies and problem calculations, Handbook of Food Processing: Food Preservation presents the information necessary to design food processing operations and goes on to describe the equipment needed to carry them out in detail. The book covers every step in the sequence of converting raw material to the final product. It also discusses the most common food engineering unit operations and food preservation processes, such as blanching, pasteurization, chilling, and freezing to aseptic packaging, non-thermal food processing, and the use of biosensors. Highlights Include Case study on the effect of blanching conditions on sulforaphane content in purple and roman cauliflower (brassica oleracea l. Var. Botrytis) Principles of thermal processing described along with thermal process calculations Case study on microwave preservation of fruit-based products: application to kiwifruit puree Principles and applications of Ohmic heating Advances in food additives and contaminants Use of edible films and coatings in fresh fruits and vegetables preservation The book provides information regarding the common food preservation methods such as blanching, thermal processing of foods, canning, extrusion-cooking, drying or dehydration of foods, chilling, and freezing. It also describes the principles and applications of new thermal and non-thermal food processing technologies, i.e., microwave heating, ohmic heating, high pressure (HP) processing, pulsed electric field (PEF) processing, magnetic fields, ultrasound, use of edible films and coatings, food packaging-aseptic packaging, and modified atmosphere, biosensor and ozone applications. The book helps you keep up with diverse consumer demands and rapidly developing markets.

Biosensors are poised to make a large impact in environmental, food, and biomedical applications, as they clearly offer advantages over standard analytical methods, including minimal sample preparation and handling, real-time detection, rapid detection of analytes, and the ability to be used by non-skilled personnel. Covering numerous applications of biosensors used in food and the environment, Portable Biosensing of Food Toxicants and Environmental Pollutants presents basic knowledge on biosensor technology at a postgraduate level and explores the latest advances in chemical sensor technology for researchers. By providing useful, state-of-the-art information on recent developments in biosensing devices, the book offers both newcomers and experts a roadmap to this technology. In the book, distinguished researchers from around the world show how portable and handheld nanosensors, such as dynamic DNA and protein arrays, enable rapid and accurate detection of environmental pollutants and pathogens. The book first introduces the basic principles of biosensing for newcomers to the technology. It then explains how the integration of a "receptor" can provide analytically useful information. It also describes trends in biosensing and examines how a small-sized device can have portability for the in situ determination of toxicants. The book concludes with several examples illustrating how to determine toxicants in food and environmental samples.