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Cement manufacturing is one of the most energy
intensive processes requiring ~ 4 GJ/ ton of
cement. Most of the energy consumption and
production of carbon dioxide in cement manufacturing
occurs in manufacturing of cement clinkers. It is
therefore imperative to use recent advances in
understanding of physics and computational methods
to improve clinker manufacturing. This book
takes first steps in that direction by discussing
methodology and state of the art computational
models to simulate clinker manufacturing. Aimed at
practicing engineers and researchers, this
book will give readers a capability to simulate
rotary cement kilns and associated equipments.
Considering the central role of kilns in clinker
manufacturing, there is a tremendous potential for
applying methodology and models discussed here to
realize performance enhancement in practice. The
integrated simulator, RoCKS discussed in this book
will facilitate such performance enhancement. The
book will also be useful to scientists and students
interested in reactor engineering and modeling of
complex systems, involving processes with
significantly different time scales.
intensive processes requiring ~ 4 GJ/ ton of
cement. Most of the energy consumption and
production of carbon dioxide in cement manufacturing
occurs in manufacturing of cement clinkers. It is
therefore imperative to use recent advances in
understanding of physics and computational methods
to improve clinker manufacturing. This book
takes first steps in that direction by discussing
methodology and state of the art computational
models to simulate clinker manufacturing. Aimed at
practicing engineers and researchers, this
book will give readers a capability to simulate
rotary cement kilns and associated equipments.
Considering the central role of kilns in clinker
manufacturing, there is a tremendous potential for
applying methodology and models discussed here to
realize performance enhancement in practice. The
integrated simulator, RoCKS discussed in this book
will facilitate such performance enhancement. The
book will also be useful to scientists and students
interested in reactor engineering and modeling of
complex systems, involving processes with
significantly different time scales.