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This book is broadly divided into two sections. A number of main themes are discussed in the first section, 'Chemical Structure and Thermoplastic Properties of Coal', covering such topics as the relationships between the chemical structures of coals and thermoplastic phenomena under heating, studies of higher-ordered agglutination structure of coals, kinetic analyses of thermal decomposition reactions, oxidation and dilatation/contraction of coal particles, and formation mechanisms of coke structure. In the second section, 'Simulation of Coal Pyrolysis and Coke Formation', mathematical formulation models are presented to show thermoplastic phenomena of coals, strengths of produced coke, and phenomena observed when heating coal particles in packed beds.
Founded on the work of the renowned Advanced Combustion Engineering Research Center, the authors document and integrate current knowledge of the organic and inorganic structure of coal and its reaction processes. With the urgent need for cleaner, more efficient use of this worldwide fuel, their work will set a clear course for future research.
Coke: Quality and Production describes the scientific and technical basis of coke manufacture and provides a detailed account of the physical and chemical mechanisms occurring in coke oven chambers. Emphasis is on the influences of coal quality and production parameters. This book is comprised of 12 chapters and begins with an introduction to technical characteristics displayed by coals or cokes, followed by a discussion on the chemical, physicochemical, and mechanical phenomena that occur during carbonization. The following chapters focus on carbonization in a coke oven chamber and its relationship to coke quality; the criteria used to evaluate coke quality; and industrial and semi-industrial tests carried out at the Marienau Station in France. The formulation of coke oven blends is also considered, along with the production factors that affect the quality of coke; factors that affect the production capacity of a coke oven battery; and heat balances on industrial coking plants. The final chapter looks at the industrial applications of blast-furnace coke and foundry coke. This monograph is intended primarily for technical personnel at coking plants and will also be of interest to consumers concerned with the working properties of coke.
Inorganic Geochemistry of Coal explains how to determine the concentrations and modes of occurrence of elements in coal, how to diminish adverse effects of toxic elements on the environment and human health, which elements in coal could be industrially utilized, and which elements can be successfully used as indications for deciphering depositional environments and tectonic evolution. As coal use will remain at an all-time high for the next several decades, there is a critical need for understanding the properties of this fuel to ensure efficient use, encourage its economic by-product potential, and to help minimize its negative technological, environmental and health impacts. - Features dozens of never-before published illustrations of critical features of the inorganic geochemistry of coal - Covers both the theory and applications of the topic, including case studies to serve as real-world examples - Includes a chapter on the health and environmental impacts of the mining, development and use of coal
This book provides insights into the development and usage of coal in chemical engineering. The reactivity of coal in processes such as pyrolysis, gasification, liquefaction, combustion and swelling is related to its structural properties. Using experimental findings and theoretical analysis, the book comprehensively answers three crucial issues that are fundamental to the optimization of coal chemical conversions: What is the structure of coal? How does the underlying structure determine the reactivity of different types of coal? How does the structure of coal alter during coal conversion? This book will be of interest to both individual readers and institutions involved in teaching and research into chemical engineering and energy conversion technologies. It is aimed at advanced- level undergraduate students. The text is suitable for readers with a basic knowledge of chemistry, such as first-year undergraduate general science students. Higher-level students with an in-depth understanding of the chemistry of coal will also benefit from the book. It will provide a useful reference resource for students and university-level teachers, as well as practicing engineers.
The Coal Handbook: Towards Cleaner Coal Utilization, Volume Two, Second Edition provides authoritative insights on a variety of case studies to help the reader identify the most appropriate technologies to take coal, and its associated by-products, into a cleaner environment, one with integrated energy systems. Editor Dave Osborne and his team of expert contributors combine their expertise to highlight the future direction of coal utilization towards more efficient and clean use of coal. Key emerging topics such as the cleanest ways to deal with coal waste and emission reduction are covered alongside a selection of case studies from various countries.This edition includes two brand new chapters on technology variants and systems, including hybrid systems and advanced CO2 abatement strategies. With its distinguished editor and international team of expert contributors, this book is a comprehensive and invaluable resource for professionals in the coal mining, preparation and utilization industry. - Reflects the latest knowledge on the social and economic value of coal, emissions from coal utilization, and the handling, impact and utilization of coal waste - Explores emerging and future issues around industrial coal utilization, with a strong focus on sustainability - Highlights coal resources, production and uses in established markets such as the USA and Europe, as well as emerging markets in Brazil, the Russian Federation, India, Indonesia and China - Includes two brand new chapters on Hybrid Technologies and Advanced CO2 Abatement Strategies
Coal has been a major energy source for centuries. In 2021, coal provided around 28% of the total global primary energy requirements and 47% of the electricity demand. Coal also fuels around 80% of the world’s total iron and steel production. In spite of current global efforts to decarbonize the global environment by eliminating coal (the most polluting fossil fuel) all projections indicate that it will remain prominent in the global energy scene in the foreseeable future, filling about 21% of the primary energy demand and providing around 35% of electricity in 2040. Coal is also a precursor to many valuable gaseous and liquid fuels, premium chemicals and high-technology carbon materials. This book serves as an introduction to the extensive science and technology of coal, in particular, the properties which largely determine the utilization potentials of one of the world’s most valuable primary energy resources.
This collection includes the analysis, development, and operation of high-temperature processes that involve the extraction and processing of material resources, production, and treatment of metals, alloys, and ceramic materials. Contributions describe innovative methods for achieving property enhancement, impurity segregation and removal, byproduct recovery, waste minimization, energy efficiency, and utilization of complex ores. Also included are various technical, economic, and environmental issues associated with commercial-scale high-temperature processing methods.