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Showing 1 - 5 of 5 matches in All Departments
This new book discusses plant-derived bioactive compounds, covering their sources, biological effects, health benefits, and potential prevention and treatment properties for multifactorial diseases. Plant-Based Bioactive Compounds and Food Ingredients: Encapsulation, Functional, and Safety Aspects shows how encapsulation methods and plant-based materials may be used in a variety of ways. The first section, Encapsulation Technologies, delves into the concepts, advantages, and techniques for encapsulating bioactives based on cereals, spices, and coffee. It also discusses the role of nanoliposomes for encapsulation of natural foods. The second section, Functional Aspects of Plant-Based Foods, discusses functional aspects of plant-based foods, nutraceutical-based functional food design, diverse functional food items, functional aspects of food, and the role of functional components. The third section, Health Benefits of Plant-Based Foods, covers selected plants (such as cereals, pepper, and coffee) and their chief phytochemicals and bioactive compounds along with their health benefits. The fourth section, Safety Aspects of Functional and Natural Foods, examines the role of functional foods in food safety and provides an overview of industrial food safety issues and techniques for monitoring food quality and safety. This volume will act as reference book for researchers, scientists, students, and food processors, providing a wealth of knowledge on encapsulation processes and their applications, functional foods, and food safety issues.
This new volume explores emerging and advanced techniques in the food processing sector. Novel food processing methods such as ultrasound processing, microwave heating, advanced drying methods, and nonthermal technologies are discussed in detail. The volume also covers the application of irradiation and encapsulation methods, microbial valorizing, and other novel food processing and preservation methods. Mathematical modeling concepts and case studies are also included to illustrate applications of modeling techniques in food processing. The volume promotes the understanding of the thermodynamics of food polymers, structural design principles, structural hierarchy, and the steps involved in food structuring and structure measurement techniques.
Although nanotechnology has revolutionized fields such as medicine, genetics, biology, bioengineering, mechanics, and chemistry, its increasing application in the food industry is relatively recent in comparison. Nanotechnology is being used to discover new methods for creating new flavors, extending food shelf life, and improving food protection and nutritional value. Nanotechnology in the food industry is now being explored for intelligent nutrient delivery systems, "smart" foods, contaminant detection nanodevices and nanosensors, advanced food processing, antimicrobial chemicals, encapsulation, and green nanomaterials. This new three-volume set, Nanotechnology Horizons in Food Process Engineering, addresses a multitude of topical issues and new developments in the field. Volume 1 focuses food preservation, food packaging and sustainable agriculture, while Volume 2 looks at nanotechnology in food process engineering, applications of biomaterials in food products, and the use of modern nanotechnology for human health. The third volume explores the newest trends in nanotechnology for food applications and their application for improving food delivery systems. Together, these three volumes provide a comprehensive and in-depth look at the emerging status of nanotechnology in the food processing industry, explaining the benefits and drawbacks of various methodologies that will aid in the improvement and development of food product sourcing and food hygiene monitoring methods. Volume 1 discusses emerging nanotechnolgical applications in food processing, packaging, and preservation. It focuses on using nanoparticles for safe and nutritional food production, protecting crops from pests, increasing nutritional value, and providing solutions for various environmental issues. This book especially deals with nanotechnology for controlling plant pathogens, food packaging and preservation, agricultural productivity, wastewater treatment, and bioenergy production. Volume 2 discusses nanotechnology use in non-thermal techniques such as high-pressure processing (HPP), pulsed electric fields (PEFs), pulsed light, ultraviolet, microwave, ohmic heating, electrospinning, and nano- and microencapsulation. This volume looks at the role and application of minimal processing techniques such as ozone treatment, vacuum drying, osmotic dehydration, dense phase carbon dioxide treatment, and high-pressure assisted freezing. The successful applications of nanotechnologies on juices, meat and fish, fruits and vegetable slices, food surface, purees, milk and milk products, extraction, drying enhancement, and encapsulation of micro-macro nutrients are also considered. The volume also presents several computer-aided techniques that are emerging in the food processing sector, such as robotics, radio frequency identification (RFID), three-dimensional food printing, artificial intelligence, etc. Significant role of food properties in design of specific food and edible packaging films have been elucidated. Nanotechnology Horizons in Food Process Engineering: Volume 3: Trends, Nanomaterials, and Food Delivery provides an overview of the current trends in nanotechnology for food applications and food delivery systems. Topics include a collection of chapters on diverse topics, including the stability of nanoparticles in food, nanobiosensing for the detection of food contaminants, nanotechnology applications in agriculture, the role of nanotechnology in nutrient delivery, how nanotechnology is applied in dairy products, biofunctional magnetic nanoparticles in food safety, the development of nutraceuticals using nanotechnological tools, and more.
This new volume, Advances in Food Process Engineering: Novel Processing, Preservation and Decontamination of Foods, highlights a selection of novel applications for food processing, food preservation, and food decontamination methods. The book discusses novel food processing methods, exploring the principles, benefits, and techniques used; recent developments and applications of ultrasonication; supercritical fluid extraction and supercritical fluid chromatography; extrusion technology; advanced drying and dehydration technologies; and encapsulation methods as important tools in the processing of food. Chapters on membrane technology in food processing address the basic membrane processing technologies along with their advantages and disadvantages, including membrane modules, types of membranes, and membrane technologies as well as various applications of membrane process in dairy processing, food and starch processing, beverage processing, sugar manufacturing, oil processing, and treatment of industrial food processing waste. Mathematical modeling in food processing is also considered in the volume. Chapters present the application and use of mathematical models for measuring and regulating fermentation procedures as well as provide an understanding of how the hydration kinetics of grains can help in optimization and scaling of processes on a large industrial scale. Topics on decontamination methods for foods are included, such as an overview of concepts, basic principles, potential applications, and prospects and limitations of cold plasma technology and irradiation in the food processing sector has been summarized. This volume provides excellent reference material for researchers, scientists, students, growers, traders, processors, industries, and others on novel food processing and preservation techniques.
This new volume presents an array of new and emerging techniques in the food processing sector, focusing on the extraction, encapsulation, and health benefits of bioactive Compounds. It illustrates various applications of novel food processing extraction and encapsulation techniques along with the health and safety aspects of plant-derived bioactive compounds and functional foods Some of the sustainable and green extraction techniques discussed include novel extraction techniques, such as microwave-assisted extraction (MAE), ultrasonic assisted extraction (UAE), supercritical fluid extraction (SFE), accelerated solvent extraction (ASE), and rapid solid-liquid extraction (RSLE). The volume also covers the principles and methods of encapsulation, its role and application in protection and stabilization and as a targeted delivery system for enhanced nutritional health benefits. Various encapsulation methods, such as spray drying, spray cooling/chilling, fluidized bed coating, coacervation, liposome entrapment, extrusion, inclusion complexation, etc., are discussed in detail for application in the food industry. Novel Processing Methods for Plant-Based Health Foods: Extraction, Encapsulation, and Health Benefits of Bioactive Compounds also highlights the potential of nutraceuticals and biological active compounds in human health, various sources, consumers’ acceptance, safety aspects, and their application in development of functional foods. This volume offers many tremendous applications in different areas of the food industry, including in food processing, preservation, health-promoting properties, and safety and quality evaluation of plant-based foods. The book provides a wealth of information and will be an excellent reference material for researchers, scientists, students, growers, traders, processors, industry professionals, and others on the emerging food processing approaches for extraction and encapsulation of plant-based bioactive compounds and health-promoting properties of plant-derived nutraceuticals and safety aspects in production of functional foods.
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