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Plant Biomass Derived Materials Comprehensive overview of materials derived from biomass, including extraction techniques, important building blocks, and a wide range of applications Plant Biomass Derived Materials provides insights into the different sources and kinds of biomass and covers a variety of techniques to derive important building blocks from raw resources; after foundational knowledge is covered, the text continues to discuss a comprehensive list of materials and applications, ranging from nanomaterials, polymers, enzymes, dyes, and composites, to applications in energy, biomedical, water purification, aeronautics, automotive and food applications, and more. Written by four highly qualified authors with significant experience in both industry and academia, Plant Biomass Derived Materials includes information on: Biomass and its relationship to the environment, chemistry of biomass, lignin and starch, and recent trends of cashew nutshell liquid in the field Plant biomass mucilage, plant based colorants, revival of sustainable fungal based natural pigments, and algal-based natural pigments for textiles Biorefinery from plant biomass (including a case study in sugarcane straw), forest and agricultural biomass, and manufacture of monomers and precursors Chemical routes for the transformation of bio-monomers into polymers and manufacture of polymer composites from plant fibers Providing foundational knowledge on the subject and a wide array of specific applications of biomass, Plant Biomass Derived Materials is an essential resource for chemists, materials scientists, and all academics and professionals in fields that intersect with biomass: an abundant renewable resource used for many diverse purposes.
Biomass-Derived Materials for Environmental Applications presents state-of-the-art coverage of bio-based materials that can be applied to address the growing global concern of pollutant discharge in the environment. The book examines the production, characterization and application of bio-based materials for remediation. Organized clearly by type of material, the book includes details on lignocellulosic materials, natural clays, carbonaceous materials, composites and advanced materials from natural origins. Readers will find an interdisciplinary and practical examination of these materials and their use in environmental remediation that will be valuable to environmental scientists, materials scientists, environmental chemists, and environmental engineers alike. - Highlights a wide range of synthetic methodologies, as well as physicochemical and engineered features of bio-based materials for environmental purposes - Provides in-depth examination of bio-based materials and their characteristics and advantages in environmental remediation - Covers a range of specific materials, including background information, key results, critical discussions, conclusions and future perspectives
A whole host of motivations are driving the development of the “renewables” industry— ranging from the desire to develop sustainable energy resources to the reduction of dangerous greenhouse gases that contribute to global warming. All energy utilized on the earth is ultimately derived from the sun through photosynthesis—the only truly renewable commodity. As concerns regarding increasing energy prices, global warming and renewable resources continue to grow, so has scientific discovery into agricultural biomass conversion. Plant Biomass Conversion addresses both the development of plant biomass and conversion technology, in addition to issues surrounding biomass conversion, such as the affect on water resources and soil sustainability. This book also offers a brief overview of the current status of the industry and examples of production plants being used in current biomass conversion efforts.
Introduction to Chemicals from Biomass, Second Edition presents an overview of the use of biorenewable resources in the 21st century for the manufacture of chemical products, materials and energy. The book demonstrates that biomass is essentially a rich mixture of chemicals and materials and, as such, has a tremendous potential as feedstock for making a wide range of chemicals and materials with applications in industries from pharmaceuticals to furniture. Completely revised and updated to reflect recent developments, this new edition begins with an introduction to the biorefinery concept, followed by chapters addressing the various types of available biomass feedstocks, including waste, and the different pre-treatment and processing technologies being developed to turn these feedstocks into platform chemicals, polymers, materials and energy. The book concludes with a discussion on the policies and strategies being put in place for delivering the so-called Bioeconomy. Introduction to Chemicals from Biomass is a valuable resource for academics, industrial scientists and policy-makers working in the areas of industrial biotechnology, biorenewables, chemical engineering, fine and bulk chemical production, agriculture technologies, plant science, and energy and power generation. We need to reduce our dependence on fossil resources and increasingly derive all the chemicals we take for granted and use in our daily life from biomass – and we must make sure that we do this using green chemistry and sustainable technologies! For more information on the Wiley Series in Renewable Resources, visit www.wiley.com/go/rrs Topics covered include: • The biorefinery concept • Biomass feedstocks • Pre-treatment technologies • Platform molecules from renewable resources • Polymers from bio-based monomers • Biomaterials • Bio-based energy production Praise for the 1st edition: “Drawing on the expertise of the authors the book involves a degree of plant biology and chemical engineering, which illustrates the multidisciplinary nature of the topic beautifully” - Chemistry World
Plant Biomass Application: Materials, Modification and Characterization focuses on the unique properties associated with plant biomass, from their biodegradable, non toxic, and safe for handling characteristics to their potential in developing sustainable, climate protecting products. Plant biomass has found many applications in the fields of biomedical, food, packaging, electronics, automotive, sensors, and textile industry, however there are very few books dealing in depth with materials derived from plant biomass for versatile application fields.This book covers all aspects of plant biomass materials opportunities with focus on the value-added product generated from plant biomass such as polymers, composites, transportation fuels, chemical intermediates/bulk chemicals, or sources of heat and generated power. The conversion of plant biomass into materials product such as plastics, fabrics, and carpets and specialty chemicals, presents exciting possibilities for replacing traditionally used fossil fuels. There are higher value, and more attractive, uses for for plant biomass use than just as fuel. Meanwhile, most agriculture, forestry, and food wastes contain ligno-cellulosic resource creating a vast and diverse resource generating system for plant biomass.Plant Biomass Materials provides and in-depth discussion of the materials derived from plant biomass and their current and potential future applications. Leading researchers from industries, academics, government and private research institutions across the globe have provided their insights, making it an important reference for researchers and academics seeking to maximize plant biomass potential. - Presents basic concepts, methods, technical concepts, literature review, and detailed application in particular fields for plant biomass materials - Focuses on the processing techniques for different biomass - Describes, in detail, processing methods, value-added products, and their applications in various fields like agriculture and food industry, energy, catalysis, and bio-medicinal applications
Petroleum-based industrial products have gradually replaced products derived from biological materials. However, biologically based products are making a comebackâ€"because of a threefold increase in farm productivity and new technologies. Biobased Industrial Products envisions a biobased industrial future, where starch will be used to make biopolymers and vegetable oils will become a routine component in lubricants and detergents. Biobased Industrial Products overviews the U.S. land resources available for agricultural production, summarizes plant materials currently produced, and describes prospects for increasing varieties and yields. The committee discusses the concept of the biorefinery and outlines proven and potential thermal, mechanical, and chemical technologies for conversion of natural resources to industrial applications. The committee also illustrates the developmental dynamics of biobased products through existing examples, as well as products still on the drawing board, and it identifies priorities for research and development.
Plant biomass is attracting increasing attention as a sustainable resource for large-scale production of renewable fuels and chemicals. However, in order to successfully compete with petroleum, it is vital that biomass conversion processes are designed to minimize costs and maximize yields. Advances in pretreatment technology are critical in order to develop high-yielding, cost-competitive routes to renewable fuels and chemicals. Aqueous Pretreatment of Plant Biomass for Biological and Chemical Conversion to Fuels and Chemicals presents a comprehensive overview of the currently available aqueous pretreatment technologies for cellulosic biomass, highlighting the fundamental chemistry and biology of each method, key attributes and limitations, and opportunities for future advances. Topics covered include: • The importance of biomass conversion to fuels • The role of pretreatment in biological and chemical conversion of biomass • Composition and structure of biomass, and recalcitrance to conversion • Fundamentals of biomass pretreatment at low, neutral and high pH • Ionic liquid and organosolv pretreatments to fractionate biomass • Comparative data for application of leading pretreatments and effect of enzyme formulations • Physical and chemical features of pretreated biomass • Economics of pretreatment for biological processing • Methods of analysis and enzymatic conversion of biomass streams • Experimental pretreatment systems from multiwell plates to pilot plant operations This comprehensive reference book provides an authoritative source of information on the pretreatment of cellulosic biomass to aid those experienced in the field to access the most current information on the topic. It will also be invaluable to those entering the growing field of biomass conversion.
Offering a unique perspective summarizing research on this timely important topic around the globe, this book provides comprehensive coverage of how molecular biomass can be transformed into sustainable polymers. It critically discusses and compares a few classes of biomass - oxygen-rich, hydrocarbon-rich, hydrocarbon and non-hydrocarbon (including carbon dioxide) as well as natural polymers - and equally includes products that are already commercialized. A must-have for both newcomers to the field as well as established researchers in both academia and industry.
This book examines the connection between biomass structure, ultrastructure, and composition, to resistance to enzymatic deconstruction, with the aim of discovering new cost-effective technologies for biorefineries. It contains chapters on topics extending from the highest levels of biorefinery design and biomass life-cycle analysis, to detailed aspects of plant cell wall structure, chemical treatments, enzymatic hydrolysis, and product fermentation options."--Pub. desc.