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This textbook discusses the development and analysis of
polygeneration systems to generate electricity, fresh water, hot
air, cold air, and hot water from a source of energy. Topics
covered in this book are desalination with no pressure or vacuum
components; combined use of refrigerator and heat pump with a vapor
compression refrigeration (VCR) cycle; binary fluid polygeneration;
compact units; and flexible operation. It covers four
polygeneration configurations, viz. binary fluid polygeneration
with single-stage HDH, binary fluid polygeneration with
double-stage HDH, heat pump polygeneration with single-stage HDH,
and heat pump polygeneration with double-stage polygeneration.
End-of-chapter problems and solved examples aid in self learning of
the students. The textbook is useful for graduate and advanced
graduate students studying courses such as polygeneration,
sustainable energy, power generation, and alike. This book is also
a useful supplementary text for researchers in fluid dynamics,
thermal engineering, and allied fields.
This volume provides a good understanding of the binary fluid
system, highlighting new dimensions of the existing Kalina cycle
system, a thermodynamic process for converting thermal energy into
usable mechanical power. The book illustrates that providing new
flexibility leads to new research outcomes and possible new
projects in this field. The information provided in the book
simplifies the application of the Kalina cycle system with an
easy-to-understand and thorough explanation of properties
development, processes solutions, sub-system work, and total system
work. There are currently no books available in the area of binary
fluid system in the field of KCS with added fallibility in the
operation and process design. Currently decentralized power systems
are gaining more attention due to shortages in power, and cooling
demands are competing with other electrical loads. This book fills
a valuable information gap, providing insight into a new dimension
for designers, practicing engineers, and academicians in this area.
This volume provides a good understanding of the binary fluid
system, highlighting new dimensions of the existing Kalina cycle
system, a thermodynamic process for converting thermal energy into
usable mechanical power. The book illustrates that providing new
flexibility leads to new research outcomes and possible new
projects in this field. The information provided in the book
simplifies the application of the Kalina cycle system with an
easy-to-understand and thorough explanation of properties
development, processes solutions, sub-system work, and total system
work. There are currently no books available in the area of binary
fluid system in the field of KCS with added fallibility in the
operation and process design. Currently decentralized power systems
are gaining more attention due to shortages in power, and cooling
demands are competing with other electrical loads. This book fills
a valuable information gap, providing insight into a new dimension
for designers, practicing engineers, and academicians in this area.
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