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With peer-reviewed chapters written by a select group of academic and industry experts, this comprehensive yet accessible book presents the theoretical and technological background of particle science and explores up-to-date applications of particle technologies in the chemical, petrochemical, energy, mechanical, and materials industries. It looks at the importance of particle science and technology in the development of efficient chemical processes and novel functional materials. The book will help readers tackle new challenges in process and product development and create new methodologies in the clean technology sector.
The book highlights the interplay among water, food, energy, and the future of sustainability. It discusses challenges in efficient water and energy production and management, wastewater treatment, and impact upon food and essential commodities. It includes a case study evaluating sustainability of process, supply chain, and enterprise.
This book develops a methodology for creating new plants based on renewable resources that supply the needed goods and services of existing plants. It includes converting existing plants to ones based on renewable resources that may require nonrenewable resource supplements. Based on extensive reviews of biomass as feedstock and the production of chemicals from biomass, the authors identify new bioprocesses that use renewable feedstock as raw materials. The text shows how new plants are integrated into existing plants in a chemical production complex. It also covers economic and sustainability analysis and the optimization of chemical complexes. Simulation codes are available for download.
This book focuses on one of the most efficient front-end green approaches in nano-film synthesis and deposition-magneto-plasma polymerization. It fosters an understanding of the fundamentals of the plasma deposition process of C and Si-based organic materials. The text also explores many applications of the materials in various environmental conditions, including biocompatibility, corrosion resistance, electrical insulation failure prevention, durable bonds between rare metal wires and insulation materials, and interfacial engineering utilizing unique nano-film interlayers.
With peer-reviewed chapters written by a select group of academic and industry experts, this comprehensive yet accessible book presents the theoretical and technological background of particle science and explores up-to-date applications of particle technologies in the chemical, petrochemical, energy, mechanical, and materials industries. It looks at the importance of particle science and technology in the development of efficient chemical processes and novel functional materials. The book will help readers tackle new challenges in process and product development and create new methodologies in the clean technology sector.
This text describes water¿s use in the production of raw fuels, as an energy carrier (e.g., hot water and steam), and as a reactant, reaction medium, and catalyst for the conversion of raw fuels to synthetic fuels. It explains how supercritical water is used to convert fossil- and bio-based feedstock to synthetic fuels in the presence and absence of a catalyst. It also explores water as a direct source of energy and fuel, such as hydrogen from water dissociation, methane from water-based clathrate molecules, and more.
This book offers a detailed yet accessible introduction to transport phenomena. It begins by explaining the underlying principles and mechanisms that govern mass transport, and continues by tackling practical problems spanning all subdisciplines of environmental science and chemical engineering. Assuming some knowledge of ordinary differential equations and a familiarity with basic fluid mechanics applications, this classroom-tested text addresses mass conservation and macroscopic mass balances, placing a special emphasis on applications to environmental processes and presenting a mathematical framework for formulating and solving transport phenomena problems.
Written to fill the gap of information on state-of-the-art advances in integrated biorefineries, this book contains contributions from leading experts in the field, addressing the synthesis, selection, design, analysis, and optimization of biorefineries. It discusses the current state of affairs for biorefineries, as well as strategies, opportunities, various processing platforms, and how to evaluate the life-cycle impact of biorefinery products and processes. It also includes systematic process design tools for new biorefineries, and an effective set of tools for techno-economic analysis. Case studies and figures are included throughout the text to strengthen the reader¿s understanding.
This book develops a methodology for creating new plants based on renewable resources that supply the needed goods and services of existing plants. It includes converting existing plants to ones based on renewable resources that may require nonrenewable resource supplements. Based on extensive reviews of biomass as feedstock and the production of chemicals from biomass, the authors identify new bioprocesses that use renewable feedstock as raw materials. The text shows how new plants are integrated into existing plants in a chemical production complex. It also covers economic and sustainability analysis and the optimization of chemical complexes. Simulation codes are available for download.
This book focuses on the different intermediates and raw material options that can generate energy output and products equivalent to conventional fossil energy sources. It presents short-term options for clean alternative energy sources that complement the development of long-term sustainable energy infrastructures. Detailing the chemical processes for each technology, the text also assesses the environmental impacts, benefits, and performance of the various processes and fuel products. It also summarizes processing and transportation issues, process design options, safety concerns, regulations, and other practical considerations associated with alternative fuels.
In this volume, leading international specialists share their knowledge and insights on recent advances in the fundamental theories, experimental methods, and research achievements of lithium-ion battery technology. Along with coverage of state-of-the-art manufacturing processes, the book focuses on the technical progress and challenges of cathode materials, anode materials, electrolytes, and separators. It also presents numerical modeling and theoretical calculations, discusses the design of safe and powerful lithium-ion batteries, and describes approaches for enhancing the performance of next-generation lithium-ion battery technology.
This book presents the first comprehensive survey of the properties and performance of TiO2-based semiconductors. It covers the use of defect engineering in the formation of novel oxide semiconductors with controlled properties. The author compares surface versus bulk semiconducting properties of oxide, outlines light measurements and light-induced properties, and describes a wide range of properties of TiO2 and its solid solutions. He also discusses the use of TiO2 in solar hydrogen fuel and solar water purification applications.
This authoritative work emphasizes the vital role of carbon-neutral energy sources, transportation fuels, and associated technologies for establishing a sustainable energy future. Each chapter draws on the insight of world-renowned experts in such diverse fields as photochemistry, fuel-generating enzymes, nuclear energy, and alternative fuel vehicles. The book covers renewable, nuclear, and decarbonized fossil energy; hydrogen fuel, biofuels, and synthetic fuels; and photochemical, thermochemical, electrochemical, and biological systems. It also analyzes the technical, economic, and environmental challenges hindering widespread commercial adoption of carbon-neutral technologies.
This book focuses on one of the most efficient front-end green approaches in nano-film synthesis and deposition magneto-plasma polymerization. It fosters an understanding of the fundamentals of the plasma deposition process of C and Si-based organic materials. The text also explores many applications of the materials in various environmental conditions, including biocompatibility, corrosion resistance, electrical insulation failure prevention, durable bonds between rare metal wires and insulation materials, and interfacial engineering utilizing unique nano-film interlayers.
Fuel cells are an important enabling technology for the hydrogen economy and have the potential to revolutionize the way we power our world. This book examines the issues and progress on key materials for proton exchange membrane fuel cells (PEMFC). It reviews these materials in terms of properties and functions in fuel cells.
This covers developments in energy efficient water production, management, wastewater treatment, social and political aspects of water management and reuse of treated water. It disucsses development of freshwater by desalination, membrane and polymer-based processes, oxidation and electrochemical, adsorption processes, and biological processes.
The book highlights the interplay among water, food, energy, and the future of sustainability. It discusses challenges in efficient water and energy production and management, wastewater treatment, and impact upon food and essential commodities. It includes a case study evaluating sustainability of process, supply chain, and enterprise.
This book presents the state of the art of solid waste management toward zero waste. It discusses different countries¿ laws and regulations, source separation of waste, and conversion of organic/biological waste into compost, biogas, and biofertilizer. It considers the combustion of waste in combined heat and power plants, as well as recent developments in waste gasification and pyrolysis. It describes various glass, metal, electronic waste, thermoset composite, paper, and fiber recycling technologies. It also examines landfill mining and encourages product design optimized for recycling.
This authoritative work emphasizes the vital role of carbon-neutral energy sources, transportation fuels, and associated technologies for establishing a sustainable energy future. Each chapter draws on the insight of world-renowned experts in such diverse fields as photochemistry, fuel-generating enzymes, nuclear energy, and alternative fuel vehicles. The book covers renewable, nuclear, and decarbonized fossil energy; hydrogen fuel, biofuels, and synthetic fuels; and photochemical, thermochemical, electrochemical, and biological systems. It also analyzes the technical, economic, and environmental challenges hindering widespread commercial adoption of carbon-neutral technologies.
This book focuses on the different intermediates and raw material options that can generate energy output and products equivalent to conventional fossil energy sources. It presents short-term options for clean alternative energy sources that complement the development of long-term sustainable energy infrastructures. Detailing the chemical processes for each technology, the text also assesses the environmental impacts, benefits, and performance of the various processes and fuel products. It also summarizes processing and transportation issues, process design options, safety concerns, regulations, and other practical considerations associated with alternative fuels.
This book provides a comprehensive treatment of carbon emissions pinch analysis (CEPA), covering the fundamentals as well as advanced variants based on mathematical programming.
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