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This book provides a thorough guide to the use of numerical methods
in energy systems and applications. It presents methods for
analysing engineering applications for energy systems, discussing
finite difference, finite element, and other advanced numerical
methods. Solutions to technical problems relating the application
of these methods to energy systems are also thoroughly explored.
Readers will discover diverse perspectives of the contributing
authors and extensive discussions of issues including: * a wide
variety of numerical methods concepts and related energy systems
applications;* systems equations and optimization, partial
differential equations, and finite difference method;* methods for
solving nonlinear equations, special methods, and their
mathematical implementation in multi-energy sources;* numerical
investigations of electrochemical fields and devices; and* issues
related to numerical approaches and optimal integration of energy
consumption. This is a highly informative and carefully presented
book, providing scientific and academic insight for readers with an
interest in numerical methods and energy systems.
This book provides a thorough guide to the use of numerical methods
in energy systems and applications. It presents methods for
analysing engineering applications for energy systems, discussing
finite difference, finite element, and other advanced numerical
methods. Solutions to technical problems relating the application
of these methods to energy systems are also thoroughly explored.
Readers will discover diverse perspectives of the contributing
authors and extensive discussions of issues including: * a wide
variety of numerical methods concepts and related energy systems
applications;* systems equations and optimization, partial
differential equations, and finite difference method;* methods for
solving nonlinear equations, special methods, and their
mathematical implementation in multi-energy sources;* numerical
investigations of electrochemical fields and devices; and* issues
related to numerical approaches and optimal integration of energy
consumption. This is a highly informative and carefully presented
book, providing scientific and academic insight for readers with an
interest in numerical methods and energy systems.
This book presents intuitive explanations of the principles of
microgrids, including their structure and operation and their
applications. It also discusses the latest research on microgrid
control and protection technologies and the essentials of
microgrids as well as enhanced communication systems. The book
provides solutions to microgrid operation and planning issues using
various methodologies including planning and modelling; AC and DC
hybrid microgrids; energy storage systems in microgrids; and
optimal microgrid operational planning. Written by specialists, it
is filled in innovative solutions and research related to microgrid
operation, making it a valuable resource for those interested in
developing updated approaches in electric power analysis, design
and operational strategies. Thanks to its in-depth explanations and
clear, three-part structure, it is useful for electrical
engineering students, researchers and technicians.
This book presents intuitive explanations of the principles of
microgrids, including their structure and operation and their
applications. It also discusses the latest research on microgrid
control and protection technologies and the essentials of
microgrids as well as enhanced communication systems. The book
provides solutions to microgrid operation and planning issues using
various methodologies including planning and modelling; AC and DC
hybrid microgrids; energy storage systems in microgrids; and
optimal microgrid operational planning. Written by specialists, it
is filled in innovative solutions and research related to microgrid
operation, making it a valuable resource for those interested in
developing updated approaches in electric power analysis, design
and operational strategies. Thanks to its in-depth explanations and
clear, three-part structure, it is useful for electrical
engineering students, researchers and technicians.
This book presents intuitive explanations of the principles and
applications of power system resiliency, as well as a number of
straightforward and practical methods for the impact analysis of
risk events on power system operations. It also describes the
challenges of modelling, distribution networks, optimal scheduling,
multi-stage planning, deliberate attacks, cyber-physical systems
and SCADA-based smart grids, and how to overcome these challenges.
Further, it highlights the resiliency issues using various methods,
including strengthening the system against high impact events with
low frequency and the fast recovery of the system properties. A
large number of specialists have collaborated to provide innovative
solutions and research in power systems resiliency. They discuss
the fundamentals and contemporary materials of power systems
resiliency, theoretical and practical issues, as well as current
issues and methods for controlling the risk attacks and other
threats to AC power systems. The book includes theoretical
research, significant results, case studies, and practical
implementation processes to offer insights into electric power and
engineering and energy systems. Showing how systems should respond
in case of malicious attacks, and helping readers to decide on the
best approaches, this book is essential reading for electrical
engineers, researchers and specialists. The book is also useful as
a reference for undergraduate and graduate students studying the
resiliency and reliability of power systems.
This textbook explores reactive power control and voltage stability
and explains how they relate to different forms of power generation
and transmission. Bringing together international experts in this
field, it includes chapters on electric power analysis, design and
operational strategies. The book explains fundamental concepts
before moving on to report on the latest theoretical findings in
reactive power control, including case studies and advice on
practical implementation students can use to design their own
research projects. Featuring numerous worked-out examples, problems
and solutions, as well as over 400 illustrations, Reactive Power
Control in AC Power Systems offers an essential textbook for
postgraduate students in electrical power engineering. It offers
practical advice on implementing the methods discussed in the book
using MATLAB and DIgSILENT, and the relevant program files are
available at extras.springer.com.
This book presents basic and advanced concepts for energy
harvesting and energy efficiency, as well as related technologies,
methods, and their applications. The book provides up-to-date
knowledge and discusses the state-of-the-art equipment and methods
used for energy harvesting and energy efficiency, combining theory
and practical applications. Containing over 200 illustrations and
problems and solutions, the book begins with overview chapters on
the status quo in this field. Subsequent chapters introduce readers
to advanced concepts and methods. In turn, the final part of the
book is dedicated to technical strategies, efficient methods and
applications in the field of energy efficiency, which also makes it
of interest to technicians in industry. The book tackles problems
commonly encountered using basic methods of energy harvesting and
energy efficiency, and proposes advanced methods to resolve these
issues. All the methods proposed have been validated through
simulation and experimental results. These "hot topics" will
continue to be of interest to scientists and engineers in future
decades and will provide challenges to researchers around the globe
as issues of climate change and changing energy policies become
more pressing.Here, readers will find all the basic and advanced
concepts they need. As such, it offers a valuable, comprehensive
guide for all students and practicing engineers who wishing to
learn about and work in these fields.
This book presents basic and advanced concepts for energy
harvesting and energy efficiency, as well as related technologies,
methods, and their applications. The book provides up-to-date
knowledge and discusses the state-of-the-art equipment and methods
used for energy harvesting and energy efficiency, combining theory
and practical applications. Containing over 200 illustrations and
problems and solutions, the book begins with overview chapters on
the status quo in this field. Subsequent chapters introduce readers
to advanced concepts and methods. In turn, the final part of the
book is dedicated to technical strategies, efficient methods and
applications in the field of energy efficiency, which also makes it
of interest to technicians in industry. The book tackles problems
commonly encountered using basic methods of energy harvesting and
energy efficiency, and proposes advanced methods to resolve these
issues. All the methods proposed have been validated through
simulation and experimental results. These "hot topics" will
continue to be of interest to scientists and engineers in future
decades and will provide challenges to researchers around the globe
as issues of climate change and changing energy policies become
more pressing.Here, readers will find all the basic and advanced
concepts they need. As such, it offers a valuable, comprehensive
guide for all students and practicing engineers who wishing to
learn about and work in these fields.
This book presents intuitive explanations of the principles and
applications of power system resiliency, as well as a number of
straightforward and practical methods for the impact analysis of
risk events on power system operations. It also describes the
challenges of modelling, distribution networks, optimal scheduling,
multi-stage planning, deliberate attacks, cyber-physical systems
and SCADA-based smart grids, and how to overcome these challenges.
Further, it highlights the resiliency issues using various methods,
including strengthening the system against high impact events with
low frequency and the fast recovery of the system properties. A
large number of specialists have collaborated to provide innovative
solutions and research in power systems resiliency. They discuss
the fundamentals and contemporary materials of power systems
resiliency, theoretical and practical issues, as well as current
issues and methods for controlling the risk attacks and other
threats to AC power systems. The book includes theoretical
research, significant results, case studies, and practical
implementation processes to offer insights into electric power and
engineering and energy systems. Showing how systems should respond
in case of malicious attacks, and helping readers to decide on the
best approaches, this book is essential reading for electrical
engineers, researchers and specialists. The book is also useful as
a reference for undergraduate and graduate students studying the
resiliency and reliability of power systems.
This textbook explores reactive power control and voltage stability
and explains how they relate to different forms of power generation
and transmission. Bringing together international experts in this
field, it includes chapters on electric power analysis, design and
operational strategies. The book explains fundamental concepts
before moving on to report on the latest theoretical findings in
reactive power control, including case studies and advice on
practical implementation students can use to design their own
research projects. Featuring numerous worked-out examples, problems
and solutions, as well as over 400 illustrations, Reactive Power
Control in AC Power Systems offers an essential textbook for
postgraduate students in electrical power engineering. It offers
practical advice on implementing the methods discussed in the book
using MATLAB and DIgSILENT, and the relevant program files are
available at extras.springer.com.
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R398
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