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Provides theories and principles of ironmaking and a novel
ironmaking technology. Includes laboratory experiments to establish
the kinetic feasibility of flash ironmaking. Covers the design and
operation of a prototype flash reactor as well as the design of
industrial-size flash ironmaking reactors. Describes various cases
of flow sheet development, which forms the basis for process
analysis and simulation Presents economic analysis case studies.
Treatise on Process Metallurgy: Volume One, Process Fundamentals
provides academics with the fundamentals of the manufacturing of
metallic materials, from raw materials into finished parts or
products. In these fully updated volumes, coverage is expanded into
four volumes, including Process Fundamentals, encompassing process
fundamentals, structure and properties of matter; thermodynamic
aspects of process metallurgy, and rate phenomena in process
metallurgy; Processing Phenomena, encompassing interfacial
phenomena in high temperature metallurgy, metallurgical process
phenomena, and metallurgical process technology; Metallurgical
Processes, encompassing mineral processing, aqueous processing,
electrochemical material and energy processes, and iron and steel
technology, non-ferrous process principles and production
technologies, and more. The work distills the combined academic
experience from the principal editor and the multidisciplinary
four-member editorial board.
Treatise on Process Metallurgy: Volume Three, Industrial Processes
provides academics with the fundamentals of the manufacturing of
metallic materials, from raw materials into finished parts or
products. In these fully updated volumes, coverage is expanded into
four volumes, including Process Fundamentals, encompassing process
fundamentals, structure and properties of matter; thermodynamic
aspects of process metallurgy, and rate phenomena in process
metallurgy; Processing Phenomena, encompassing interfacial
phenomena in high temperature metallurgy, metallurgical process
phenomena, and metallurgical process technology; Metallurgical
Processes, encompassing mineral processing, aqueous processing,
electrochemical material and energy processes, and iron and steel
technology, non-ferrous process principles and production
technologies, and more. The work distills the combined academic
experience from the principal editor and the multidisciplinary
four-member editorial board.
Fluid-Solid Reactions, Second Edition takes a detailed and thorough
look at the scope of fluid-solid reaction systems, focusing on the
four phenomena: external mass transfer, pore diffusion, chemical
reaction, and adsorption/desorption. This completely revised new
edition builds on the classic original edition through the
introduction of cutting-edge new theories and applications,
including the formulation and application of a new and convenient
law that governs fluid-solid reaction kinetics. This book will be
of primary interest to practicing engineers engaged in process
research, development, and design in the many fields where
fluid-solid reactions are critical to workflow and research.
Fluid-solid reactions play a major role in the technology of most
industrialized nations. These reactions encompass a very broad
field, including the extraction of metals from their ores, the
combustion of solid fuels, coal gasification, and the incineration
of solid refuse.
Materials in the form of ultrafine or nanosized powders display
many useful physical, mechanical and chemical properties. The
properties of nano-scaled materials are significantly different
from atoms and bulks materials arise mainly from large fraction of
surface atoms, high surface energy and reduced imperfections. The
effects of grain size on mechanical properties have been recognised
and generated much interest. It would therefore be advantageous if
compounds can be produced in fine powder form from inexpensive raw
materials using less energy. Their small sizes also improve
hardness, fracture toughness and low-temperature ductility as well
as catalytic and interfacial processes. Nanomaterials also enable
lower processing temperatures compared with bulk materials and
faster reaction time due to their higher surface reactivity. Thus,
the production of nanosized powder is an important industrial
process and is explored in this technical and informative book.
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