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Energy and the Chemical Sciences: The 1977 Karcher Symposium is a collection of papers that discusses the relationship between chemistry and energy problems. The selection views the relationship from varying perspective. The text also tackles the relationship while giving consideration to factors such as engineering difficulties, economic constraints, feasibility, and public policy. The coverage of the text includes topics such as a biomimetic approach to solar energy conversion; prospects for non-biological storage of solar energy; and national energy policy and the role of congress. The book will be of use to scientists, engineers, and technicians who are involved in the research, development, and implementation of alternative energy technology.
This book, also based on a workshop, assesses the current state of chemistry and chemical engineering at the interface with novel and existing forms of energy and transportation systems. The book also identifies challenges for the chemical sciences in helping to meet the increased demand for more energy, and opportunities for research in energy technologies and in the development of transportation vehicles.
This book is a beginners introduction to chemical thermodynamics for engineers. In the textbook efforts have been made to visualize as clearly as possible the main concepts of thermodynamic quantities such as enthalpy and entropy, thus making them more perceivable. Furthermore, intricate formulae in thermodynamics have been discussed as functionally unified sets of formulae to understand their meaning rather than to mathematically derive them in detail.In this textbook, the affinity of irreversible processes, defined by the second law of thermodynamics, has been treated as the main subject, rather than the equilibrium of chemical reactions. The concept of affinity is applicable in general not only to the processes of chemical reactions but also to all kinds of irreversible processes.This textbook also includes electrochemical thermodynamics in which, instead of the classical phenomenological approach, molecular science provides an advanced understanding of the reactions of charged particles such as ions and electrons at the electrodes.Recently, engineering thermodynamics has introduced a new thermodynamic potential called exergy, which essentially is related to the concept of the affinity of irreversible processes. This textbook discusses the relation between exergy and affinity and explains the exergy balance diagram and exergy vector diagram applicable to exergy analyses in chemical manufacturing processes. This textbook is written in the hope that the readers understand in a broad way the fundamental concepts of energy and exergy from chemical thermodynamics in practical applications. Finishing this book, the readers may easily step forward further into an advanced text of their specified line.- Visualizes the main concepts of thermodynamics to show the meaning of the quantities and formulae.- Focuses mainly on the affinity of irreversible processes and the related concept of exergy.- Provides an advanced understanding of electrochemical thermodynamics.
Chemistry and chemical engineering have changed significantly in the last decade. They have broadened their scopeâ€"into biology, nanotechnology, materials science, computation, and advanced methods of process systems engineering and controlâ€"so much that the programs in most chemistry and chemical engineering departments now barely resemble the classical notion of chemistry. Beyond the Molecular Frontier brings together research, discovery, and invention across the entire spectrum of the chemical sciencesâ€"from fundamental, molecular-level chemistry to large-scale chemical processing technology. This reflects the way the field has evolved, the synergy at universities between research and education in chemistry and chemical engineering, and the way chemists and chemical engineers work together in industry. The astonishing developments in science and engineering during the 20th century have made it possible to dream of new goals that might previously have been considered unthinkable. This book identifies the key opportunities and challenges for the chemical sciences, from basic research to societal needs and from terrorism defense to environmental protection, and it looks at the ways in which chemists and chemical engineers can work together to contribute to an improved future.
In the International Year of Chemistry, prominent scientists highlight the major advances in the fight against the largest problems faced by humanity from the point of view of chemistry, showing how their science is essential to ensuring our long-term survival. Following the UN Millennium Development Goals, the authors examine the ten most critical areas, including energy, climate, food, water and health. All of them are opinion leaders in their fields, or high-ranking decision makers in national and international institutions. Intended to provide an intellectual basis for the future development of chemistry, this book is aimed at a wide readership including students, professionals, engineers, scientists, environmentalists and anyone interested in a more sustainable future.
Renewable Energy Technology for Engineers: Principles, Generation, Storage, Economics, and More The future requires substantial growth in renewable energy systems in order to address carbon emissions and climate change, while still improving human life. To meet this challenge, many engineers and other technical professionals need new theoretical and practical knowledge, including greater familiarity with current and emerging renewable technologies. In Chemical Processes in Renewable Energy Systems, Dr. Vivek Utgikar introduces the fundamental principles, transformations, and applications associated with each leading form of renewable energy. Writing for engineering students and practitioners, Utgikar covers solar, biomass, hydro, wind, ocean, and geothermal energy, as well as hybrid systems that integrate generation with storage. He also introduces essential principles of techno-economic analysis, to clarify issues that will continue to inform policy concerning renewable energy systems. Utgikar discusses state-of-the-art, recent developments, as well as enduring scientific and technological principles and transformations, and provides complete references to encourage deeper exploration. The resulting text will help you quickly get up to date and then stay up to date as technological, social, and economic factors evolve. Understand energy's role in society, the limits and risks of fossil sources, and renewable alternatives Compare the leading forms of primary renewable energy, and the transformations they make possible Learn how concentrated solar power (CSP) and photovoltaic (PV) systems improve solar energy utilization Explore complex transformations of biomass energy into electricity, heat, and forms of chemical energy Optimize transformations in renewable systems that are primarily mechanical, such as hydro-, wind, and ocean Consider engineering issues associated with hybrid systems that combine generation with batteries or other forms of storage Apply principles of techno-economic analysis to renewables, to make better policy or business decisions For students, this guide will illuminate both the technical principles and policy perspectives influencing the move to renewables. For practitioners, it offers a refresher and ready reference to implement any renewable energy system, now and in the future.
"This lower-elementary book lays the foundation for readers to understand the form of energy that holds together the atoms in all molecules: chemical energy. After presenting the basics of energy, including how energy systems work and how energy changes form, the text explores chemical energy in-depth in an approachable way that will engage even reluctant readers. Vocabulary boxes throughout define difficult terms, while Think About It and Compare and Contrast boxed features encourage readers to think critically and engage with content, both within and beyond the text."
Energy – in the headlines, discussed controversially, vital. The use of regenerative energy in many primary forms leads to the necessity to store grid dimensions for maintaining continuous supply and enabling the replacement of fossil fuel systems. Chemical energy storage is one of the possibilities besides mechano-thermal and biological systems. This work starts with the more general aspects of chemical energy storage in the context of the geosphere and evolves to dealing with aspects of electrochemistry, catalysis, synthesis of catalysts, functional analysis of catalytic processes and with the interface between electrochemistry and heterogeneous catalysis. Top-notch experts provide a sound, practical, hands-on insight into the present status of energy conversion aimed primarily at the young emerging research front.
Process Intensification: Engineering for Efficiency, Sustainability and Flexibility is the first book to provide a practical working guide to understanding process intensification (PI) and developing successful PI solutions and applications in chemical process, civil, environmental, energy, pharmaceutical, biological, and biochemical systems. Process intensification is a chemical and process design approach that leads to substantially smaller, cleaner, safer, and more energy efficient process technology. It improves process flexibility, product quality, speed to market and inherent safety, with a reduced environmental footprint. This book represents a valuable resource for engineers working with leading-edge process technologies, and those involved research and development of chemical, process, environmental, pharmaceutical, and bioscience systems. - No other reference covers both the technology and application of PI, addressing fundamentals, industry applications, and including a development and implementation guide - Covers hot and high growth topics, including emission prevention, sustainable design, and pinch analysis - World-class authors: Colin Ramshaw pioneered PI at ICI and is widely credited as the father of the technology
Chemical Bonds and Bonds Energy, Second Edition provides information pertinent to the fundamental aspects of contributing bond energy and bond dissociation energy. This book explores the values that are useful in the interpretation of significant phenomena such as product distribution and reaction mechanisms. Organized into 12 chapters, this edition begins with an overview of the quantitative relationship among three basic properties of an atom, namely, nonpolar covalent radius, electronegativity, and homonuclear single covalent bond energy. This text then examines the quantitative means of evaluating the partial atomic charges that result from initial differences in the electromagnetivity of atoms that form a compound. Other chapters consider the recognition of the reduction of bond weakening not by multiplicity and in certain types of single covalent bonds. The final chapter deals with the application of the principal ideas and techniques to the oxidation of ethane. This book is a valuable resource for organic and inorganic chemists.