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This book introduces the most recent innovations in natural polymer applications in the food, construction, electronics, biomedical, pharmaceutical, and engineering industries. The authors provide perspectives from their respective range of industries covering classification, extraction, modification, and application of natural polymers from various sources in nature. They discuss the techniques used in analysis of natural polymers in various systems incorporating natural polymers as well as their intrinsic properties. .
Organic Chemistry --- Chemistry --- Physical Sciences & Mathematics --- Biopolymers. --- Bioactive polymers --- Biological polymers --- Natural polymers --- Naturally occurring polymers --- Biomolecules --- Polymers --- Polymers. --- Surfaces (Physics). --- Biochemical engineering. --- Mechanics. --- Mechanics, Applied. --- Industrial engineering. --- Polymer Sciences. --- Characterization and Evaluation of Materials. --- Biochemical Engineering. --- Solid Mechanics. --- Industrial and Production Engineering. --- Management engineering --- Simplification in industry --- Engineering --- Value analysis (Cost control) --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Bio-process engineering --- Bioprocess engineering --- Biochemistry --- Biotechnology --- Chemical engineering --- Surface chemistry --- Surfaces (Technology) --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Polymers . --- Materials science. --- Production engineering. --- Material science --- Physical sciences --- Manufacturing engineering --- Process engineering --- Industrial engineering --- Mechanical engineering
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This book presents a comprehensive survey about the most recent developments in industrial applications, processing techniques and modifications of polymers from marine sources. It systematically introduces the reader to the biomaterials Chitin, Collagen, Alginates, Cellulose and Polyesters and links their interwoven industrial significance and environmental implications. The book elucidates the impact of industrial sourcing of the aquatic system for organic and inorganic matter on the environment and deepens the understanding of the industrial and economic significance of aquatic biopolymers. Further it addresses the question of how to balance the conservation of aquatic life and the industrial and economic interest in developing biodegradable alternatives for plastic. Thus the book will appeal to scientists in the field of chemistry, materials and polymer science as well as engineering.
Polymers . --- Natural resources. --- Engineering—Materials. --- Biomaterials. --- Marine sciences. --- Freshwater. --- Polymer Sciences. --- Natural Resources. --- Materials Engineering. --- Marine & Freshwater Sciences. --- Fresh waters --- Freshwater --- Freshwaters --- Inland water --- Inland waters --- Water --- Ocean sciences --- Aquatic sciences --- Biocompatible materials --- Biomaterials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- National resources --- Natural resources --- Resources, Natural --- Resource-based communities --- Resource curse --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Economic aspects --- Biopolymers. --- Bioactive polymers --- Biological polymers --- Natural polymers --- Naturally occurring polymers --- Biomolecules --- Polymers --- Bioartificial materials --- Hemocompatible materials --- Biomaterials (Biomedical materials)
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This book covers the challenges and opportunities presented by plastics in the modern era and sheds light on the complex interplay of technology, environment, and socio-economic dynamics. With a thorough exploration of the history, uses, and potential of plastics, the book reviews the impact of plastics beyond single-use plastics, and critiques multiple long-term plastic applications that are significant for food security, water resource management, ecological conservation/restoration, and sustainable urbanization. It also explores frameworks for achieving a more sustainable plastic economy aligned with sustainable development goals. This book comprises 13 chapters, commencing with a critical assessment of plastics in the context of sustainable development and global society. It proceeds with a historical overview of plastics' evolution, showcasing pivotal milestones and innovations in modern industry and daily life. Subsequent chapters delve into diverse topics: the intricate relationships between plastics, food security, and sustainable urbanization; plastics' impact on water safety, management, distribution, and conservation; their potential as an alternative energy source; and their innovative applications in sustainable transportation and energy generation. Emphasis is placed on plastics' role in waste reduction and recycling, as well as the latest sustainable alternatives like biodegradable and recyclable materials. In the book's final sections, readers will learn about green buildings and climate-resilient cities constructed using innovative plastic materials, and plastics' significance in space exploration. The book concludes with a forward-looking perspective on plastics' future, accompanied by recommendations for a more sustainable coexistence between society and these versatile materials. This book is a valuable resource for researchers, policymakers, industry professionals, and concerned citizens seeking to navigate the intricate landscape of plastics, their environmental implications, and their potential for sustainable development.
Polymers. --- Materials science. --- Environmental chemistry. --- Environmental policy. --- Refuse and refuse disposal. --- Sustainability. --- Materials Science. --- Environmental Chemistry. --- Environmental Policy. --- Waste Management/Waste Technology.
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This book addresses the need for a technical guided thought on production, consumption, and waste management of plastic and polymers in the African continent. Issues such as resource availability, processing technologies, plastic policies, and much more are covered in the book. While Africa is made up of several different countries which might be different from each other in many ways, these countries within the African continent have some commonalities such as region, some shared history, resources, and some shared policies through organizations such as the African Union, African Free trade Zone, and ECOWAS. With a population of over a billion, the African continent has become an attractive market for various businesses. Several publications in recent years have pushed for the advancement of the African continent toward increased manufacturing as a road to development. This inevitably includes the plastics and other polymers industry. Careful consideration must be taken to ensure that this growth will focus on more sustainable and greener manufacturing; otherwise, this anticipated growth in the plastics and polymer industry will only spell increased pollution and worsening of the environment.
Macromolecules --- General biophysics --- Environmental protection. Environmental technology --- biologische materialen --- afval --- polymeren --- Plastics industry and trade.
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