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Food Bioconversion, Volume Two in the Handbook of Food Bioengineering series is an interdisciplinary resource of fundamental information on waste recovery and biomaterials under certain environmental conditions. The book provides information on how living organisms can be used to transform waste into compounds that can be used in food, and how specialized living cells in plants, animals and water can convert the most polluting agents into useful non-toxic products in a sustainable way. This great reference on the bioconversion of industrial waste is ideal in a time when food resources are limited and entire communities starve. Presents extraction techniques of biological properties to enhance food’s functionality, i.e. functional foods or nutraceuticals Provides detailed information on waste material recovery issues Compares different techniques to help advance research and develop new applications Includes research solutions of different biological treatments to produce foods with antibiotic properties, i.e. probiotics Explores how bioconversion technologies are essential for research outcomes to increase high quality food production
This edited book discusses various processes of feedstocks bioconversion such as bioconversion of food waste, human manure, industrial waste, beverage waste, kitchen waste, organic waste, fruit and vegetable, poultry waste, solid waste, agro-industrial waste, cow dung, steroid, lignocellulosic residue, biomass, natural gas etc. Nowadays, the industrial revolution and urbanization have made human life comfortable. However, this requires excess usage of natural resources starting from food and food products, to energy resources, materials as well as chemicals. The excess use of natural resources for human comfort is expected to high fuel prices, decline natural resources as well as cause a huge hike in the cost of raw materials. These factors are pushing researchers to grow environmentally friendly processes and techniques based on inexpensive and sustainable feedstock to accomplish such worldwide targets. Bioconversion, otherwise called biotransformation, is the change of natural materials, for example, plant or animal waste, into usable items or energy sources by microorganisms. Bioconversion is an environmentally friendly benevolent choice to supplant the well-established chemical procedures utilized these days for the production of chemicals and fuels. A variety of alternatives advancements are being considered and are directly accessible to acquire diverse valuable end-products through bioprocesses. This book discusses in detail the process and techniques of bioconversion by focusing on the organic feedstock of animal and plant origin. It brings solutions to the bioconversion of various feedstock into value-added products.
The Role of Materials Science in Food Bioengineering, Volume 19 in the Handbook of Food Bioengineering, presents an up-to-date review of the most recent advances in materials science, further demonstrating its broad applications in the food industry and bioengineering. Many types of materials are described, with their impact in food design discussed. The book provides insights into a range of new possibilities for the use of materials and new technologies in the field of food bioengineering. This is an essential reference on bioengineering that is not only ideal for researchers, scientists and food manufacturers, but also for students and educators. Discusses the role of material science in the discovery and design of new food materials Reviews the medical and socioeconomic impact of recently developed materials in food bioengineering Includes encapsulation, coacervation techniques, emulsion techniques and more Identifies applications of new materials for food safety, food packaging and consumption Explores bioactive compounds, polyphenols, food hydrocolloids, nanostructures and other materials in food bioengineering
This book focuses on the crucial sustainability challenge of reducing food waste at the level of consumer-society. Providing an in-depth, research-based overview of the multifaceted problem, it considers environmental, economic, social and ethical factors. Perspectives included in the book address households, consumers, and organizations, and their role in reducing food waste. Rather than focusing upon the reasons for food waste itself, the chapters develop research-based solutions for the problem, providing a much-needed solution-orientated approach that takes multiple perspectives into account. Chapters 1, 2, 12 and 16 of this book are available open access under a CC BY 4.0 license at link.springer.com
Advances in Biotechnology for Food Industry, Volume Fourteen in the Handbook of Food Bioengineering series, provides recent insight into how biotechnology impacts the global food industry and describes how food needs are diverse, requiring the development of innovative biotechnological processes to ensure efficient food production worldwide. Many approaches were developed over the last 10 years to allow faster, easier production of widely used foods, food components and therapeutic food ingredients. This volume shows how biotechnological processes increase production and quality of food products, including the development of anti-biofilm materials to decrease microbial colonization in bioreactors and food processing facilities. Presents basic to advanced technological applications in food biotechnology Includes various scientific techniques used to produce specific desired traits in plants, animals and microorganisms Provides scientific advances in food processing and their impact on the environment, human health and food safety Discusses the development of controlled co-cultivations for reproducible results in fermentation processes in food biotechnology
By covering both the general principles of bioconversion and the specific characteristics of the main groups of waste materials amenable to bioconversion methods, this new book provides the chemical, biochemical, agrochemical and process engineer with clear guidance on the use of these methods in devising a solution to the problem of industrial waste products.
With ever-increasing health consciousness among consumers in the worldwide in the last decades, great attention has been paid on the application of biotechnology methods in the agricultural and food industry. Especially for plant-based foods production, which exhibit co-benefits to human the health and climate. Traditional fermented foods play a crucial role in human diets around the world because of their unique flavors, great nutritional value, and health-beneficial effects. Fermentation is one of the most traditional but still prevalent bio-processing approaches in the food industry, with the great potential to improve the flavor, sensory, nutritional value and biological activity (including antioxidant capacity, anti-cancer, anti-diabetic anti-inflammatory, regulating intestinal flora properties) of food products. The application of microbial food processing method has attracted the interest of researchers and industries due to its simple, environmentally friendly, and cost-efficiently advantages. The use of fermentation and selected generally recognized as safe (GRAS) starters, such as lactic acid bacteria, yeasts and filamentous fungi has been considered as an excellent method to improve the nutritional value or biological activity of foods by the biosynthesis/biotransformation/generation of bioactive compounds (e.g., phenolic compounds, oligosaccharide), or by the degradation of anti-nutritional factors. In the last years, the exploitation of microbes isolated from traditional fermented foods or as the result of the inoculation of selected starters was conducted to produce novel fermented plant-based foods with beneficial viable microorganisms and/or their metabolites that positively impact on human health. This Research Topic aims to focus on the application of microorganisms in processing of fermented plant-based foods to improve nutritional profile and/or biological activity. In particular, it is welcome focusing on matrices fermentation by beneficial microorganisms, processing for food substrate/by-product valorization, augmentation of food matrix bioactive compounds via fermentation. We invite authors to submit different types of manuscripts (e.g., Original Research Articles, short communications, and Review Articles) that focus on but are not limited to the following topics:  Microbial metabolic pathways associated with the accumulation of bioactive compounds of fermented foods.  Innovative fermentation approaches to improve the nutritional and functional properties in the final products.  Valorization of plant-based food matrices/by-products via fermentation.  Plant-based anti-nutritional factors degradation by microorganisms.  Development of high added-value and novel fermented products.  Production of bioactive compounds with health beneficial effects.  Human intestinal flora simulated effect on plant-based food.
Food Biosynthesis, Volume One in the Handbook of Food Bioengineering series, describes the main aspects related to the biological production of synthetic ingredients and natural foods, highlighting the impact of bacteria and plants in the biosynthesis of key food components. Biosynthesis methods could help solve issues like food shortages, providing consumers with preferred ‘natural’ food options. This book represents how biologically synthesized ingredients, such as vanilla flavoring, soy, milk and egg substitutes can be utilized as a desired option future foods. It is ideal for scientists and researchers who want to improve their knowledge on the field of food biosynthesis. Presents practical approaches of biosynthesis and the impact of biological origin on the field of food engineering Offers alternative applications to produce natural foods Includes processes and techniques to produce health promoting foods Discusses the positive effects of biosynthesis on microbial production to enhance food safety Offers a variety of perspectives on biosynthesis and its benefits for food ingredient production
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Biopolymers for Food Design, Volume 20 in the Handbook of Bioengineering series, describes how biopolymers have made a major impact in the food industry, from food design, to food control and safety. Biopolymers can be used in the development of novel nutritional alternatives, to replace difficult to obtain food products, or for foods inaccessible or inappropriate for a particular population (i.e. allergic to specific components). In addition, some polymers can be used as functional ingredients, and can also represent efficient scaffolds for food ingredients with therapeutic values. This valuable reference is ideal for those looking for new solutions for the food industry. Presents common biopolymers and their applications in food bioengineering, from food design, to control and safety Identifies how the use of certain biopolymers can result in faster production time and reduced costs Includes cutting-edge technologies used in research for food design and other food-related applications Discusses the use of biopolymers in food packaging, shelf-life extension, and the creation of novel food products