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The importance of processing and packaging food items so that they are safe for the consumer cannot be underestimated. Sensors have an important role to play in this, and sensing technologies have attracted the attention of the scientific community in view of increasing environmental and societal concerns. This edited volume presents a collection of ten chapters discussing the current trends of bio- and nano-sensing technologies for processing and packaging of food items. Starting with an overview chapter which introduces the field, the book goes on to discuss novel applications related to preservation, authenticity and safety of foods. Intelligent food packaging and nano-based sensing are covered, and the book finishes with a look towards the pros and cons of how this will revolutionise sensing throughout the food sector. It will be of benefit to scientists and practising professionals conducting research in the areas of food processing, contamination and food safety, and academic researchers and graduate students studying food technology or food engineering.
This edited volume presents a collection of ten chapters discussing the current trends of bio- and nano-sensing technologies for processing and packaging of food items.
Nanobiotechnology for Food Processing and Packaging covers nanomaterials' application as an eco-friendly, greener, cost-effective and easy handling and management approach that can help prevent various high-level physical, biological and chemical contamination in foodstuff. Written by experts from a multidisciplinary perspective, each chapter addresses nanomaterials' application as a sustainable tool for the management of uncountable food processing and packaging challenges. Sections focus on nanobiotechnology in processing and packaging, considering food quality, safety and management aspects. The book also highlights various preparative methods and antimicrobial/antifungal activities, including the mechanism of the antimicrobial action of various bionanocomposites and food toxin detection nanobiosensor nano additives. Other sections cover possible food toxin detection, food packaging, and materials such as nanomaterials, nanocomposites, carbon-based nanomaterials, polymer-based nanocomposites and various binary and tertiary nanocomposites and their mechanistic approach. Explores nanobiotechnology in food processing, food quality, safety and management Discusses nanomaterials/nanostructure biocompatibility, safety and toxicity in the food sector Presents eco-friendly, low cost and quick response food toxin detection techniques
This text focuses on the many benefits of the use of nanobiotechnology in the food industry. Each aspect of nanobiotechnology use is covered in depth, from food processing to packaging to safety and quality control. The authors outline the definition and history of nanobiotechnology and cover novel technologies for its use in the food industry, including the advantages and challenges for food scientists. Individual chapters focus on the food industry's use of nano-additives, nano-sensors, nano-encapsulation for nutrition delivery and considerations for commercialization. The potential hazards for nanoparticle use, as well as the future prospects of nanobiotechnology use in the food industry, are presented here in depth. Nanobiotechnology in Food: Concepts, Applications and Perspectives explores the emerging developments in nanotechnology which make it increasingly applicable to the food industry. Nanoparticles are applied during food processing to improve nutritional quality, flow properties, flavor, color and stability, and also to increase shelf life by decreasing the activity of microorganisms. Nanotechnology is important for the development of healthier foods with lower fat, sugar and salt levels, and to overcome many food-related diseases. This book shows how producers and manufacturers can make great strides in food quality and safety by using nanotechnology.
Nanotechnology can be used to address challenges faced by the food and bioprocessing industries for developing and implementing improved or novel systems that can produce safer, nutritious, healthier, sustainable, and environmental-friendly food products. This book overviews the most recent advances made on the field of nanoscience and nanotechnology that significantly influenced the food industry. Advances in Processing Technologies for Bio-Based Nanosystems in Food provides a multidisciplinary review of the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures systems. Features: Presents the most recent advances made in the field of nanoscience and nanotechnology as applied to the food industry Discusses innovative approaches and processing technologies Shows how nanotechnology can be used to produce safer, nutritious, healthier, sustainable and environmental-friendly food products Covers the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures Selected examples of nanotechnology applications in food industry are shown, focusing on advanced aspects of food packaging, processing and preservation; followed by one contribution that presents the potential commercialization and the main challenges for scale-up. Comprised of 15 chapters, this book provides much-needed and up-to-date information on the use of emergent technologies in bio-based nanosystems for foods, and serves as an ideal reference for scientists, regulators, industrialists, and consumers that conduct research and development in the food processing industry.
This book gives readers a practical introduction into machine learning and sensing techniques, their design and ultimately specific applications that could improve food production. It shows how these sensing and computing systems are suitable for process implementation in food factories. This book starts by giving the reader an overview of the historic structures of food manufacturing standards and how they defined today’s manufacturing. It is followed by a topical introduction for professionals in the food industries in topics such as AI, machine learning, and neural networks. It also includes an explanation of the different sensor systems and their basic principles. It shows how these sensing and computing systems are suitable for process implementation in food factories and what types of sensing systems have already been proven to deliver benefit to the food manufacturing industries. The authors also discuss issues around food safety, labelling, and traceability and how sensing and AI can help to resolve issues. They also use case studies and specific examples that can show the benefit of such technologies compared to current approaches. This book is a practical introduction and handbook for students, food engineers, technologists and process engineers on the benefits and challenges around modern manufacturing systems following Industry 4.0 approaches.
Handbook of AGRICULTURAL BIOTECHNOLOGY This book provides state-of-the-art information about recent advancements in the application of nanobiofungicides for effective management of post-harvest diseases and agricultural fungal diseases, including blights, mildews, molds, and rusts. The book details the formulation and standardization of nanobiofungicides, as well as their application in the management of biotic and abiotic stress. It provides relevant information on the isolation, characterization, purification, and structural characterization of active constituents, using spectroscopic techniques and explains the quarantine and regulatory issues that are associated with nanobiofungicides (derived from plants and other biogenic sources), as well as various regulatory bodies that manage the control of pesticides on agricultural products. Readers will learn about the application of nanobiofungicides when applied as a biocontrol agent against soil-borne and root-borne plant pathogens; the management of mycotoxin; the non-target effect of plant-based nanobiofungicides when applied in the greenhouse and field (such as rate of CO2 evolution, organic carbon content, enzymatic activity, acidic and alkaline phosphatase, dehydrogenases, urease, and protease); and the effect on soil microorganisms using different assay techniques. Furthermore, the book provides information on several plant materials that could serve as nanobiofungicdes, and explains the procedure involved in the characterization of plant-based nanobiofungicides (using TEM, SEM, XRD, EDX, UV, zeta potential, dynamic light-scattering). Finally, it offers a specific illustration on the application of microencapsulation and nanoformulation technology in the synthesis of plant-based nanobiofungicides. Audience The book is a useful resource for a diverse audience, including industrialists, food industry professionals, agriculturists, agricultural microbiologists, plant pathologists, botanists, microbiologists, biotechnologists, nanotechnologists, microbial biotechnologists, farmers, policymakers, and extension workers.
This book focuses on novel technologies related to food processing technology and engineering. It also focuses on food safety, quality and management, the scope of the Internet of Things (IoT) in food processing and its management, bioengineering tools for crop improvement in agriculture, recent innovations in food packaging, nanotechnology in food processing, and the nutritional health benefits of food. 3D printed food, an interesting and increasingly popular concept among the public today, is a meal prepared through an automated additive process using 3D food printers. This book is a ready reference for food researchers, students, and industry professionals. The book updates the current scenario of food processing technology and engineering for readers from agriculture and its allied fields including students and researchers of food science and technology, dairy science and technology, packaging industry, people working in food safety organisations, and researchers in the field of nanotechnology.
Large amounts of money, time and effort are devoted to sensory and consumer research in food and beverage companies in an attempt to maximize the chances of new products succeeding in the marketplace. Many new products fail due to lack of consumer interest. Answers to what causes this and what can be done about it are complex and remain unclear. This wide-ranging reference collates important information about all aspects of this in one volume for the first time. It provides comprehensive, state-of-art coverage of essential concepts, methods and applications related to the study of consumer evaluation, acceptance and adoption of new foods and beverages. Combining knowledge and expertise from multiple disciplines that study food sensory evaluation and consumer behaviour, it covers advanced methods including analytical, instrumental and human characterization of flavour, aspects of food processing and special research applications of knowledge and methods related to consumers’ evaluation of new food products. Researchers and professionals working in food science and chemistry are sure to find this an interesting read.