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 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.

Here is a comprehensive summary of new research and advancements in the unique functional and nutraceutical therapeutic and physiochemical aspects of dairy foods. The book explores the specific health benefits of dairy ingredients in nutraceuticals and functional foods as well as delves into production techniques that enhancement their therapeutic value. The first section of the book looks at the physicochemical and technological aspects of milk-derived components, discussing production, extraction and purification, and functional and technological applications of various functional dairy ingredients (such as lactulose, casein and whey protein-derived bioactive peptides). The volume also considers the therapeutic aspects of dairy ingredients, detailing the physiological and health effects of colostrum, oligosaccharides, conjugated linoleic acid, and lactoferrin. The third section focuses on enhancing the functionality of dairy foods by assessing the functional attributes that can be augmented by the addition of nutraceuticals such as probiotics, vitamins, and minerals or by the removal of cholesterol. Functional Dairy Ingredients and Nutraceuticals: Physicochemical, Technological, and Therapeutic Aspects provides an abundance of important research on the use of dairy ingredients in functional foods and nutraceuticals that will be valued by researchers, scientists, students, growers, traders, processors, industries, and others involved with the physicochemical, technological and therapeutic aspects of various nutraceuticals and functional dairy ingredients and their application in food and dairy industry.

This new volume looks at new research and advances in the use of nanotechnology applications in agricultural and bioprocess engineering. The first section deals with the impact of nanotechnology in agricultural engineering, looking at the role of nanomaterials in plant growth and nutrition. It goes on to discuss specific methods and processes in the development of food products, nutraceuticals, and therapeutics. This includes nanotechnological methods for iron fortification of dairy food, for processing and preservation of meat and meat products, for selective targeting of cancer, and more. The book then discusses the role of nanotechnology in bioprocessing, such as for biofuel production, for wastewater treatment, and as enzymatic nanoparticles for fabrication processes.

This volume takes an in-depth look at various biological and chemical hazards in food and food products that pose health threats. It also outlines methods and practices for the diagnosis, prevention, and management of these hazards in food production processes. The new scientific research and case studies presented in the volume cover mycotoxins, foodborne pathogens, antibiotic residues from dairy animals, pesticide residues, the presence of heavy metals in food, and more. Chapters also address food allergy management and offer lessons and practices in food recall situations. The authors discuss the various food toxins, their sources, as well as management, mitigation, and prevention strategies. Also addressed are the specific adverse effects on people with health problems such as diabetes, hypertension, cancer, neurodegenerative diseases, and more. This book is organized in such a way that each chapter treats one major food safety hazard and offers novel control methods for health, food safety, and quality enhancement through various means. Biological and Chemical Hazards in Food and Food Products: Prevention, Practices, and Management will aid researchers and policymakers as it illustrates the various aspects of food safety hazards and how to analyze and control these potential health threats.

Phytochemicals and Medicinal Plants in Food Design: Strategies and Technologies for Improved Healthcare explores the therapeutic potential of various natural and novel phytochemicals in the design of new foods. Divided into two parts, the first section discusses plant-based secondary metabolites for healthcare, focusing on the health aspects of herbs and medicinal plants and nutraceuticals for livestock production and for the treatment of diseases such as HIV and diabetes. The authors also address the benefits of preserving indigenous knowledge of medicinal plants and current consumer views of health issues from foods. The second part delves into the design and utilization of healthy foods. This section discusses the application of novel designs and herbal formulations in conjunction with other biomolecules for the development and utilization for food products with health benefits. Key features: Encourages the preservation of indigenous knowledge on herbs and medicinal plants Explains the health-promoting effects of some herbs and medicinal plants Discusses the therapeutics and their mechanisms of actions of the biological compounds for food safety This informative volume will be valuable for faculty, students, scientists, researchers, and industry professionals in the development of superfoods from phytochemicals and medicinal plants.

Food Processing and Preservation Technology: Advances, Methods, and Applications confronts the challenges of food preservation by providing new research and information on the use of novel processing and preservation technologies during production, processing, and transportation in the food industry for the improvement of shelf life and the safety of foods. The book is organized in two main parts. The first section focuses on novel and nonthermal processing of food and food products. It looks at dielectric heating and ohmic heating as well as three-dimensional printing of foods and ozonization of food products. Part two delves into process interventions for food processing and preservations, discussing the applications of diverse novel food processing. The authors discuss drying technologies, advances in food fermentation technologies, mechanization of traditional indigenous products for preservation of food and safety, and different properties and concepts of bakery products. Key features: Examines different properties and attributes of some bakery foods, etc. Elucidates on novel nonthermal processing techniques and their mechanisms of actions for minimal loss of food nutrients and for food safety Discusses a variety of modern technologies that aim to reduce the spoilage of food products This volume presents valuable research on food processing, quality control, and safety measures for food products by means of novel processing and preservation technologies during production, processing, and transportation in the food industry.

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 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.

This volume focuses on food preservation prior to distribution and sale, which is a major challenge in the tropical climates of most developing nations. In order to assure that food products are safe for human consumption, due importance must be given to the quality and safety aspects of production, processing, and distribution. This volume provides an informative overview of recent research on the therapeutic potential of various new and natural compounds along with novel technologies for enhanced shelf-life longevity and food safety. It also looks at the antimicrobial constituents of different sources and the history of their use as biopreservatives. It includes scientific evaluations of their use as alternative or potential biopreservatives. Focusing on real-life applications in consumer and food products, the book is divided into three parts, covering health and quality aspects of food preservation, applications of novel biomolecules for quality and safety of foods, and novel research techniques in food biopreservation.

This volume focuses on food preservation prior to distribution and sale, which is a major challenge in the tropical climates of most developing nations. In order to assure that food products are safe for human consumption, due importance must be given to the quality and safety aspects of production, processing, and distribution. This volume provides an informative overview of recent research on the therapeutic potential of various new and natural compounds along with novel technologies for enhanced shelf-life longevity and food safety. It also looks at the antimicrobial constituents of different sources and the history of their use as biopreservatives. It includes scientific evaluations of their use as alternative or potential biopreservatives. Focusing on real-life applications in consumer and food products, the book is divided into three parts, covering health and quality aspects of food preservation, applications of novel biomolecules for quality and safety of foods, and novel research techniques in food biopreservation.