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Reactor Process Design in Sustainable Energy Technology compiles and explains current developments in reactor and process design in sustainable energy technologies, including optimization and scale-up methodologies and numerical methods. Sustainable energy technologies that require more efficient means of converting and utilizing energy can help provide for burgeoning global energy demand while reducing anthropogenic carbon dioxide emissions associated with energy production. The book, contributed by an international team of academic and industry experts in the field, brings numerous reactor design cases to readers based on their valuable experience from lab R&D scale to industry levels. It is the first to emphasize reactor engineering in sustainable energy technology discussing design. It provides comprehensive tools and information to help engineers and energy professionals learn, design, and specify chemical reactors and processes confidently. - Emphasis on reactor engineering in sustainable energy technology - Up-to-date overview of the latest reaction engineering techniques in sustainable energy topics - Expert accounts of reactor types, processing, and optimization - Figures and tables designed to comprehensively present concepts and proceduresHundreds of citations drawing on many most recent and previously published works on the subject
Encyclopedia of Renewable Energy, Sustainability and the Environment, Four Volume Set comprehensively covers all renewable energy resources, including wind, solar, hydro, biomass, geothermal energy, and nuclear power, to name a few. In addition to covering the breadth of renewable energy resources at a fundamental level, this encyclopedia delves into the utilization and ideal applications of each resource and assesses them from environmental, economic, and policy standpoints. This book will serve as an ideal introduction to any renewable energy source for students, while also allowing them to learn about a topic in more depth and explore related topics, all in a single resource.Instructors, researchers, and industry professionals will also benefit from this comprehensive reference. - Covers all renewable energy technologies in one comprehensive resource - Details renewable energies' processes, from production to utilization in a single encyclopedia - Organizes topics into concise, consistently formatted chapters, perfect for readers who are new to the field - Assesses economic challenges faced to implement each type of renewable energy - Addresses the challenges of replacing fossil fuels with renewables and covers the environmental impacts of each renewable energy
This book presents a collection of the latest studies on and applications for the sustainable development of urban energy systems. Based on the 20th International Scientific Conference on Energy Management of Municipal Facilities and Sustainable Energy Technologies, held in Voronezh and Samara, Russia from 10 to 13 December 2018, it addresses a range of aspects including energy modelling, materials and applications in buildings; heating, ventilation and air conditioning systems; renewable energy technologies (photovoltaic, biomass, and wind energy); electrical energy storage; energy management; and life cycle assessment in urban systems and transportation. The book is intended for a broad readership: from policymakers tasked with evaluating and promoting key enabling technologies, efficiency policies and sustainable energy practices, to researchers and engineers involved in the design and analysis of complex systems.
Technology and Applications of Polymers Derived from Biomass explores the range of different possible routes from biomass to polymeric materials, including the value and limitations of using biomass in material applications and a comparison of petrochemical-derived polymers and bio-based polymers. The book discusses biomass sources, types, chemistry and handling concerns. It covers the manufacture of industrial chemicals from biomass and the derivation of monomers and polymers from biomass. It also details the processing and applications of biomass-derived polymers to enable materials scientists and engineers realize the potential of biomass as a sustainable source of polymers, including plastics and elastomers. The book is a one-stop-shop reference—giving students a basic understanding of the technology and how the material can be applied to industrial processes they will face in the workforce, and giving materials engineers and product designers the information they need to make more informed material selection decisions. - Provides fundamental understanding of an increasingly important approach to sourcing polymeric materials - Includes actionable, relevant information to enable materials engineers and product designers consider biomass-derived polymers in the products they are developing - Discusses the environmental impact of biomass conversion to help readers improve the sustainability of their operations - Compares petrochemical-derived polymers with bio-based polymers
FOCAPD-19/Proceedings of the 9th International Conference on Foundations of Computer-Aided Process Design, July 14 - 18, 2019, compiles the presentations given at the Ninth International Conference on Foundations of Computer-Aided Process Design, FOCAPD-2019. It highlights the meetings held at this event that brings together researchers, educators and practitioners to identify new challenges and opportunities for process and product design. - Combines presentations from the Ninth International Conference on Foundations of Computer-Aided Process Design, FOCAPD-2019
Sustainable Nuclear Power provides non-nuclear engineers, scientists and energy planners with the necessary information to understand and utilize the major advances in the field. The book demonstrates that nuclear fission technology has the abundance and attainability to provide centuries of safe power with minimal greenhouse gas generation. It also addresses the safety and disposal issues that have plagued the development of the nuclear power industry and scared planners and policy makers as well as the general public for more than two decades. In addition, the authors provide a Companion website, http://books.elsevier.com/companions, which gives access to government reports and case studies *No need for a background in nuclear science! This book guides engineers, scientists and energy professionals through a concise and easy-to-understand overview of key safety and sustainability issues affecting their work. *Details the very latest information about today's safest and most energy-efficient reactor designs and reprocessing procedures. *Brings to light the fears and hesitation of using nuclear energy and explains that technologies and procedures for safe production and processing are available today.
Membrane Technologies for Biorefining highlights the best practices needed for the efficient and environmentally-compatible separation techniques that are fundamental to the conversion of biomass to fuels and chemicals for use as alternatives to petroleum refining. Membrane technologies are increasingly of interest in biorefineries due to their modest energy consumption, low chemical requirements, and excellent separation efficiency. The book provides researchers in academia and industry with an authoritative overview of the different types of membranes and highlights the ways in which they can be applied in biorefineries for the production of chemicals and biofuels. Topics have been selected to highlight both the variety of raw materials treated in biorefineries and the range of biofuel and chemical end-products. - Presents the first book to focus specifically on membrane technologies in biorefineries - Provides a comprehensive overview of the different types of membranes and highlight ways in which they can be applied in biorefineries for the production of chemicals and biofuels - Topics selected highlight both the variety of raw materials treated using membranes in biorefineries and the range of biofuel and chemical end-products
Advances and Technology Development in Greenhouse Gases: Emission, Capture and Conversion is a comprehensive seven-volume set of books that discusses the composition and properties of greenhouse gases, and introduces different sources of greenhouse gases emission and the relation between greenhouse gases and global warming. The comprehensive and detailed presentation of common technologies as well as novel research related to all aspects of greenhouse gases makes this work an indispensable encyclopedic resource for researchers in academia and industry.Volume 4 titled Carbon Capture Technologies is devoted to efficient technologies utilized for separation that are the heart of controlling carbon-made greenhouse gases (GHGs). The book starts with a review of carbon capture concepts with a focus on energy penalties as well as the operating pilots and plants followed by a meticulous investigation of different classes of capture methods. Section 2 surveys the absorption process including amines, physical absorbents, alkaline solvents, ionic liquids and deep eutectic solvents, nanoparticle-enhanced solvents, as well as a number of novel materials and structures, that are employed to eliminate GHGs utilizing absorption. Section 3 addresses adsorption-based strategies with a focus on the role of different solid adsorbents, introduces technologies that benefit from membranes, and considers different materials utilized in the fabrication of membranes. The final section deals with other as state-of-the-art alternatives in carbon capture. Moreover, each section reviews the economic assessments and environmental challenges. - Introduces carbon capture concepts and challenges - Describes various absorption and adsorption processes for carbon capture - Includes various membrane technologies for carbon capture
Encyclopedia of Sustainable Technologies, Eight Volume Set provides an authoritative assessment of the sustainable technologies that are currently available or in development. Sustainable technology includes the scientific understanding, development and application of a wide range of technologies and processes and their environmental implications. Systems and lifecycle analyses of energy systems, environmental management, agriculture, manufacturing and digital technologies provide a comprehensive method for understanding the full sustainability of processes. In addition, the development of clean processes through green chemistry and engineering techniques are also described. The book is the first multi-volume reference work to employ both Life Cycle Analysis (LCA) and Triple Bottom Line (TBL) approaches to assessing the wide range of technologies available and their impact upon the world. Both approaches are long established and widely recognized, playing a key role in the organizing principles of this valuable work. Provides readers with a one-stop guide to the most current research in the field Presents a grounding of the fundamentals of the field of sustainable technologies Written by international leaders in the field, offering comprehensive coverage of the field and a consistent, high-quality scientific standard Includes the Life Cycle Analysis and Triple Bottom Line approaches to help users understand and assess sustainable technologies
Photosynthesis-Assisted Energy Generation Describes the mechanisms of and potential for using microorganisms and plants as renewable power resources Bridging the knowledge gap between the fundamentals and the technological advances in biological photosynthesis-assisted energy generation, Photosynthesis-Assisted Energy Generation explores the various diverse light-harvesting biological systems for electricity generation and explains the fundamentals and applications from lab-scale to in-field. The text discusses the fundamentals of electron transfer mechanisms in photosynthetic systems, basic principles of bioelectricity generation, and materials involved in the construction of fuel cells, including not only the impact of higher plants, but also anoxygenic and oxygenic photosynthetic bacteria and microalgae on the performance of photosynthesis-assisted power generation systems. A timely resource, the text features case studies on emerging topics such as mosses in power generation on green roofs and photo-bioelectrochemical fuel cells for antibiotics and dyes removal, along with discussion of sustainability issues when scaling up bio-photo-electrochemical systems. Edited by two highly qualified and accomplished academics with significant research experience in the field, Photosynthesis-Assisted Energy Generation includes information on: Role of functional materials involved in photosynthesis-assisted power generation and non-noble electrocatalysts as air cathodes in biocells Electricity generation and intensified synthesis of nutrients by plant-based biofuel cells using duckweeds as biocatalysts Algae-based microbial fuel cells, photosynthetic bacteria-based microbial fuel cells, and bryophyte microbial fuel cell systems Progress and recent trends of application of low-energy consuming devices and IoT based on photosynthesis-assisted power generation Plant-based microbial fuel cells for bioremediation, biosensing, and plant health monitoring With full coverage of an attractive renewable energy generation system, Photosynthesis-Assisted Energy Generation is an essential resource on the subject for researchers and scientists interested in alternative renewable energetics and photosynthesis-assisted energy generation processes utilizing microorganisms, algae, plants, and other bioinspired materials.