Agro-Wastes for Packaging Applications


Book Description

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




Biopolymers and Biocomposites from Agro-waste for Packaging Applications


Book Description

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


Book Description

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.




Green Composites


Book Description

This book presents important developments in green chemistry, with a particular focus on composite materials chemistry. In recent years, natural polymers have generated much interest due to their unique morphology and physical properties. The book gives an introductory overview of green composites, and discusses their emerging interdisciplinary applications in various contemporary fields. The chapters, written by leading experts from industry and academia, cover different aspects of biodegradable green composites and natural polymers including their processing, manufacturing, properties, and applications. This book will be a valuable reference for beginners, researchers as well as industry professionals interested in biodegradable composites.




Integrated Waste Management Approaches for Food and Agricultural Byproducts


Book Description

Food wastage has become a major problem with about one third of all food produced for human consumption going to waste, leading to major socioeconomic and environmental consequences in an increasingly resource-constrained world. This volume embraces integrated management as a solution to food and agricultural wastage. It presents methods to lessen, reuse, recycle, and manage wastage by merging and employing a variety of suitable methods, equipment, and organizational plans. The volume begins with a global overview of the characterization of food and agricultural wastes. It then delves into using food processing applications that use byproducts as sources of valuable bioenergy and recoverable products. It explores methods for reducing, reusing, and recycling waste along with basic and modern environmental practices for food and agricultural waste management. Chapters discuss food waste management in conjunction with enhancing food security and sustainability and management strategies that offset the impact of food and agricultural wastes on the environment. Finally, the book looks at the challenges and opportunities that are associated with food and agricultural waste management across the globe.




Biodegradable Polymer-Based Food Packaging


Book Description

This book covers different aspects of biodegradable packaging, such as their sourcing and application in food industries. The book focuses on the production and characterization of biodegradable food packaging derived from plant, animal and microbial sources. Chapters highlight the nano-technological interventions in biodegradable food packaging and the less studied microbial biopolymer-based biodegradable food packaging makes it distinct from other related books. It includes the latest research and development in the areas of food processing, food packaging, material science and polymeric science. It also discusses the standards and regulatory guidelines about the biodegradability testing of these polymers. This book is meant for researchers in food science, food packaging, bioprocess technology, polymer science and biochemical engineering. It is also beneficial for faculty members and students of food microbiology, food technology, dairy technology. The book is also meant for small entrepreneurs and farmers who are interested in bio-plastic usage for food packaging.




Food Packaging


Book Description

Food Packaging: Nanotechnology in the Agri-Food Industry, Volume 7, focuses on the development of novel nanobiomaterials, the enhancement of barrier performance of non-degradable and biodegradable plastics, and their fabrication and application in food packaging. The book brings together fundamental information and the most recent advances in the synthesis, design, and impact of alternative food packaging. Special attention is offered on smart materials and nanodevices that are able to detect quality parameters in packaged food, such as freshness, degradation, and contamination, etc. In addition, ecological approaches aiming to obtain bioplastics packages from waste materials are highlighted and discussed as a novel approach in modern food packaging. Nonetheless, this volume presents the advances made in biodegradable and bioactive packaging utilized for preserving flavor, nutritious ingredients, and therapeutic food compounds. - Includes fabrication techniques, such as nanofiber films, nanocoating, nanocompositing, multi-layered structures, and layer-by-layer nanoassemblies based on synthetic and bio-based polymers - Presents the latest information on new biodegradeable materials using fabrication of new high barrier plastics to enhance research - Provides examples of risk assessment for nanomaterials for food safety and the benefits of antimicrobial food packaging







Biodegradable Composites for Packaging Applications


Book Description

"Biodegradable Composites for Packaging Applications" describes design, processing, and manufacturing of advanced biodegradable composites in packaging industry applications. It covers fundamentals of biodegradable polymers followed by introduction to biodegradable materials for food packaging industry and its processing mechanisms. Pertinent applications are explained across different chapters including intelligent packaging, applied technologies, degradation problems and its impact on environment and associated challenges. Features Covers biodegradable composites and targeted applications in packaging for industrial applications. Includes exhaustive processing and characterizations of biodegradable composites. Discusses innovative commodities packaging applications. Reviews advanced integrated design and fabrication problems for conductive and sensors applications. Explores various properties and functionalities through extensive theoretical and experimental modeling. This volume is aimed at researchers and graduate students in sustainable materials, composite technology, biodegradable plastics, and food technology and engineering.




Hybrid Polymeric Nanocomposites from Agricultural Waste


Book Description

Hybrid Polymeric Nanocomposites from Agricultural Waste examines the use of agricultural by-products for green production of new materials. It covers nanoparticle synthesis from agricultural wastes and nanocomposite development with a focus on polyethylene, polylactic acid, polymethylmethacrylate, and epoxy resins, and considers possible biomedical and engineering applications. Showcases agricultural waste as polymer reinforcements to replace expensive synthetic fibres that discourage wide polymeric nanocomposite applications Discusses green synthesis and characterisation of hybrid nanocomposites from polylactic acid, polymethylmethacrylate, recycled/new polyethylene, and epoxy resins Contrasts hybrid nanocomposites properties with standard nanocomposites, using automotive case studies The book is aimed at researchers, advanced students, and industrial professionals in materials, polymer, and mechanical engineering and related areas interested in the development and application of sustainable materials.