Biopolymers and Biocomposites from Agro-waste for Packaging Applications looks at the utilization of biocomposites and biopolymers for packaging applications. The book focuses on the development of affordable, innovative, sustainable packaging products made from biopolymers and biocomposites derived from agricultural waste/biomass and how they that result in improved shelf-life performance. In addition, it explores how these affordable packaging products can reduce food loss across the supply chain, the future direction of setting-up platforms for broader uses, and how these products can also contribute to minimizing waste-to-landfill problems. - Focuses on the application and use of non-exploited cheap agricultural waste for food packaging applications - Contains information on the modeling and processing of biopolymers and biocomposites to predict thermal and mechanical behavior - Features a discussion of coatings on packaging products to enhance shelf life
AGRO-WASTE DERIVED BIOPOLYMERS AND BIOCOMPOSITES This comprehensive book describes the fundamental principles and major advancements in the utilization of agro-waste for deriving biopolymers, and their applications to fabricate composite, nanocomposite, and hybrid food packaging films and coatings. The book serves as a complete, systematic, comprehensive account of the contemporary developments in the area of novel and environment-friendly valorization of agro- and food wastes into value-added products like biodegradable polymer and active functional agents for food packaging applications. It also describes the hurdles and challenges in the commercialization of these novel biopolymer-based materials, including their composites, their applications, safety, and legal ramifications. This book consists of fifteen chapters covering different aspects of agro- and food waste utilization, the development of biodegradable polymers, and their composites for sustainable food packaging applications. The first thirteen chapters detail the processing of various agro- and food wastes of plant and animal origin to synthesize different biopolymers, such as starch, cellulose, chitosan, silk proteins, pectin, etc., and their applications for the fabrication of sustainable food packaging materials and composites that are attractive alternatives to synthetic plastic packaging. These chapters also summarize the effectiveness of these biopolymers and their composites in developing active films and edible coatings for shelf-life extension and preservation of perishable foods. A chapter is devoted to issues of biodegradability, including analyses of various biodegradation reactions, such as depolymerization, mineralization, biochemical, and abiotic degradation both in soil and aquatic environments. The book concludes with a chapter addressing the concerns associated with the possible migration of components or additives from these biodegradable packaging into packaged food items. Audience The primary audience for this book is researchers, scientists, and engineers working in food science and technology, food engineering and technology, food biotechnology, sustainable food packaging, etc. Additionally, food entrepreneurs and associated businesses, such as the packaging and coatings industries, will also have a keen interest in the book.
Food and agricultural waste is a huge global issue that has detrimental effects on society, the economy, and the environment. Plant leaves, stems, roots and peels (outer leaves and stems) are among the wastes and by-products from agriculture and the food business, along with residues from oil production, fruit and vegetable peels, and seeds. High concentrations of dietary fiber, phytochemicals, cellulose, and hemicellulose are typically found in these residues. As the next environmentally conscious step of waste valorization, research from recent years has demonstrated that employing organic ingredients/biodegradable fibers generated from waste and by-products in the food packaging business may be an efficient strategy to reduce the quantity of food waste and by-products. In recent years, there has been a lot of interest in finding alternative polymer materials as high-value novel packaging materials through the valorization of agricultural waste. Thus, utilizing agricultural wastes and by-products as raw materials for food packaging could help cut down on the amount of waste produced. Agro-Wastes for Packaging Applications provides an update on the strategies for valuing agricultural waste and how these might be used in packaging. It also includes recent research on these approaches and presents an innovative strategy for developing sustainable, green, and biodegradable packaging options. A detailed overview of the packaging application of valorized agricultural waste materials is discussed, and concept clarification is achieved using flowcharts and figures supported by the latest research investigations. These agricultural leftovers are abundant sources of polysaccharides, such as cellulose, hemicellulose, and lignin, which can be processed further utilizing various physicochemical techniques and other unconventional techniques to create nanocellulose fibers or crystals. The main goal of this book is to provide food experts and the general public with superior, environmentally friendly, sustainable packaging materials that can be used in place of plastic polymers. Key Features Contains abundant information on advanced valorization techniques for different types of agricultural wastes Provides information on possible applications of component/constituents obtained by the valorization Discusses the impact of the incorporation of these valorized components in different packaging systems Reviews the legal standards and future trends in the commercialization of these derived polymers in food packaging industries
AGRO-WASTE DERIVED BIOPOLYMERS AND BIOCOMPOSITES This comprehensive book describes the fundamental principles and major advancements in the utilization of agro-waste for deriving biopolymers, and their applications to fabricate composite, nanocomposite, and hybrid food packaging films and coatings. The book serves as a complete, systematic, comprehensive account of the contemporary developments in the area of novel and environment-friendly valorization of agro- and food wastes into value-added products like biodegradable polymer and active functional agents for food packaging applications. It also describes the hurdles and challenges in the commercialization of these novel biopolymer-based materials, including their composites, their applications, safety, and legal ramifications. This book consists of fifteen chapters covering different aspects of agro- and food waste utilization, the development of biodegradable polymers, and their composites for sustainable food packaging applications. The first thirteen chapters detail the processing of various agro- and food wastes of plant and animal origin to synthesize different biopolymers, such as starch, cellulose, chitosan, silk proteins, pectin, etc., and their applications for the fabrication of sustainable food packaging materials and composites that are attractive alternatives to synthetic plastic packaging. These chapters also summarize the effectiveness of these biopolymers and their composites in developing active films and edible coatings for shelf-life extension and preservation of perishable foods. A chapter is devoted to issues of biodegradability, including analyses of various biodegradation reactions, such as depolymerization, mineralization, biochemical, and abiotic degradation both in soil and aquatic environments. The book concludes with a chapter addressing the concerns associated with the possible migration of components or additives from these biodegradable packaging into packaged food items. Audience The primary audience for this book is researchers, scientists, and engineers working in food science and technology, food engineering and technology, food biotechnology, sustainable food packaging, etc. Additionally, food entrepreneurs and associated businesses, such as the packaging and coatings industries, will also have a keen interest in the book.
Food Waste Valorization: Emerging Trends, Techno-economic and Environmental Considerations covers bioactive extraction, therapeutic properties and environmental concerns related to food waste conversion to value-added products, along with advanced technological breakthroughs in the field. The book also provides concepts and theories on several facets of agro-food waste valorization and its by-products, as well as opportunities and challenges. Each chapter contains viewpoints from different fields of research such as Basic Science, Agriculture, Food Science and Engineering, Chemical Engineering, Mechanical Engineering, Environmental Science, and more, with each having a unique approach to food waste valorization as it relates to their field. This is an invaluable resource for research and development professionals in post-harvest processing and renewable energy industries, as well as the academicians. - Identifies industries and products to make use of food waste - Discusses technological and environmental impacts of food waste valorization - Focuses on maximizing food waste utilization with minimum adverse impact - Provides perspectives from food science, agriculture, engineering, and environmental science
Fiber-reinforced polymer composites exhibit better damping characteristics than conventional metals due to the viscoelastic nature of the polymers. There has been a growing interest among research communities and industries in the use of natural fibers as reinforcements in structural and semi-structural applications, given their environmental advantages. Knowledge of the vibration and damping behavior of biocomposites is essential for engineers and scientists who work in the field of composite materials. Vibration and Damping Behavior of Biocomposites brings together the latest research developments in vibration and viscoelastic behavior of composites filled with different natural fibers. Features: Reviews the effect of various types of reinforcements on free vibration behavior Emphasizes aging effects, influence of compatibilizers, and hybrid fiber reinforcement Explores the influence of resin type on viscoelastic properties Covers the use of computational modeling to analyze dynamic behavior and viscoelastic properties Discusses viscoelastic damping characterization through dynamic mechanical analysis. This compilation will greatly benefit academics, researchers, advanced students, and practicing engineers in materials and mechanical engineering and related fields who work with biocomposites. Editors Dr. Senthil Muthu Kumar Thiagamani, Kalasalinagam Academy of Research and Education (KARE), India Dr. Md Enamul Hoque, Military Institute of Science and Technology (MIST), Bangladesh Dr. Senthilkumar Krishnasamy, King Mongkut’s University of Technology North Bangkok KMUTNB, Thailand Dr. Chandrasekar Muthukumar, Hindustan Institute of Technology & Science (HITS), India Dr. Suchart Siengchin, King Mongkut’s University of Technology North Bangkok KMUTNB, Thailand
Handbook of Bioplastics and Biocomposites Engineering Applications The 2nd edition of this successful Handbook explores the extensive and growing applications made with bioplastics and biocomposites for the packaging, automotive, biomedical, and construction industries. Bioplastics are materials that are being researched as a possible replacement for petroleum-based traditional plastics to make them more environmentally friendly. They are made from renewable resources and may be naturally recycled through biological processes, conserving natural resources and reducing CO2 emissions. The 30 chapters in the Handbook of Bioplastics and Biocomposites Engineering Applications discuss a wide range of technologies and classifications concerned with bioplastics and biocomposites with their applications in various paradigms including the engineering segment. Chapters cover the biobased materials; recycling of bioplastics; biocomposites modeling; various biomedical and engineering-based applications including optical devices, smart materials, cosmetics, drug delivery, clinical, electrochemical, industrial, flame retardant, sports, packaging, disposables, and biomass. The different approaches to sustainability are also treated. Audience The Handbook will be of central interest to engineers, scientists, and researchers who are working in the fields of bioplastics, biocomposites, biomaterials for biomedical engineering, biochemistry, and materials science. The book will also be of great importance to engineers in many industries including automotive, biomedical, construction, and food packaging.
With the growing concern for the environment and the rising price of crude oil, there is increasing demand for non-petroleum-based polymers from renewable resources. Biopolymer films have been regarded as potential replacements for synthetic films in food packaging due to a strong marketing trend toward environmentally friendly materials. Biopolymer-based films and coatings display good barrier properties, flexibility, transparency, economic profitability, and environmental compatibility. Therefore, they have successfully been used for packaging various food products. Biopolymer-Based Films and Coatings: Trends and Challenges elaborates on the recent methods and ingredients for making biodegradable films and coatings, as well as the current requirements for food security and environmental issues. This book also explores films and coatings prepared with essential oils, antimicrobial substances, and bioactive components that make up this active packaging. Films and coating chapters are based on biopolymers used to prepare films and coatings, that is, carbohydrates, lipids, proteins, and so on. This book provides a platform for researchers and industrialists on the basic and advanced concepts of films and coatings. Key Features Provides a comprehensive analysis of recent findings on biopolymers (carbohydrate-, protein-, and lipid-) based films and coatings Contains a wealth of new information on the properties, functionality, and applications of films and coatings Presents possible active and functional components and ingredients for developing films and coatings. Guides start-up researchers on where to start the latest research work in packaging It has been estimated that the global production of bioplastics is set to hike from ~2.11 in 2020 to ~2.87 million tonnes in 2025. Further, the demand for fresh, ready-to-eat, or semi-finished foods is increasing, and the need to maintain food safety and quality further exacerbates the challenges in the supply chain, especially with the globalization of food trade and the use of centralized processing facilities for food distribution. It is an urgent requirement to increase shelf life and reduce food product loss. Considering the great market demand for biodegradable material-based packaging systems, this book comes at an opportune time to enable researchers and food scientists to develop suitable solutions considering the sustainability and economic feasibility of the process.
The demand for safe and healthy foods by consumers has increased the interest in developing new food processing techniques over the past decades. Emerging technologies and techniques are not just working to increase the shelf life of food but are also functioning to maintain the same quality of the food that makes it desirable in the first place. Emerging Techniques for Food Processing and Preservation is an essential guide for professionals and researchers in the food industry who seek to stay updated on the latest advancements in food processing and preservation techniques. This comprehensive book explores cutting-edge technologies that can enhance the quality and safety of food products while also improving their shelf life. With contributions from leading experts in the field, this book covers a wide range of topics, including Electrodialysis, Refractance Window Technology, Cold Plasma, Bio Speckle Laser Technique, Nanofluids, and many others. Each chapter includes detailed explanations of the principles behind these emerging techniques, as well as case studies that demonstrate their practical applications. In this book, readers will gain insights into the principles behind these emerging techniques, their advantages and limitations, and the practical applications in various food products. Whether you are a food scientist, engineer, or a food industry professional, this book will help you stay at the forefront of the rapidly evolving landscape of food processing and preservation.
BIODEGRADABLE MATERIALS AND THEIR APPLICATIONS Biodegradable materials have ascended in importance in recent years and this book comprehensively discusses all facets and applications in 29 chapters making it a one-stop shop. Biodegradable materials have today become more compulsory because of increased environmental concerns and the growing demand for polymeric and plastic materials. Despite our sincere efforts to recycle used plastic materials, they ultimately tend to enter the oceans, which has led to grave pollution. It is necessary, therefore, to ensure that these wastes do not produce any hazards in the future. This has made an urgency to replace the synthetic material with green material in almost all possible areas of application. Biodegradable Materials and Their Applications covers a wide range of subjects and approaches, starting with an introduction to biodegradable material applications. Chapters focus on the development of various types of biodegradable materials with their applications in electronics, medicine, packaging, thermoelectric generations, protective equipment, films/coatings, 3D printing, disposable bioplastics, agriculture, and other commercial sectors. In biomedical applications, their use in the advancement of therapeutic devices like temporary implants, tissue engineering, and drug delivery vehicles are summarized. Audience Materials scientists, environmental and sustainability engineers, and any other researchers and graduate students associated with biodegradable materials.