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This timely book examines the significant challenges and possible
solutions for enabling efficient modernization of electric power
systems. It addresses rapidly changing electricity infrastructure
needs and technical requirements and provides a practical
introduction to the past, present, and future of energy efficiency
and power quality concepts. The book also looks at recent
developments in custom power conditioners that help
improve the performance of transmission and distribution systems,
ensure reliability, and reduce costs. Modernization of
Electric Power Systems is a valuable resource for practicing
engineers, students, and researchers interested in exploring and
implementing energy efficiency and power quality in modern energy
systems with renewables.Â
This book discusses advanced technologies for applications in
renewable energy and power systems. The topics covered include
neural network applications in power electronics, deep learning
applications in power systems, design and simulation of multilevel
inverters, solid state transformers, neural network applications
for fault detection in power electronics, etc. The book also
discusses the important role of artificial intelligence in power
systems, and machine learning for renewable energy. This book will
be of interest to researchers, professionals, and technocrats
looking at power systems, power distribution, and grid operations.
This textbook is the first of its kind to comprehensively describe
the energy Internet, a vast network that efficiently supplies
electricity to anyone anywhere and is an internet based wide area
network for information and energy fusion. The chapters are
organized into five parts: Architecture and Design, Energy
Switching and Routing, Information and Communication, Energy
Management Systems and Energy Market and Trading, and capture the
spectrum of this exponential transformation, while also presenting
the plethora of open problems that this transformation poses for
researchers from mixed academic backgrounds. The scope includes key
technologies on distributed energy sources, microgrids, energy
storage, solar and wind energy, power grid, smart grid, power
quality, power electronics, data centers, distributed computing and
networking, cloud computing and big data, and software-defined
networking. The book presents the basic principles of energy
internet and emphasizes the current research trends in the field of
energy Internet at an advanced level. It includes instructor
materials, case-studies, and worked examples throughout. This is an
ideal resource for students in advanced graduate-level courses and
special topics in energy, information and control systems, and is a
useful tool for utility engineers who seek an intuitive
understanding of the emerging applications of energy Internet.
Worldwide, the effects of global warming, pollution due to power
generation from fossil fuels, and its depletion have led to the
rapid deployment of renewable energy-based power generation. The
leading renewable technologies are wind and photovoltaic (PV)
systems. The incorporation of this generation of technologies has
led to the development of a broad array of new methods and tools to
integrate renewable generation into power system networks.The
Handbook of Renewable Energy Technology & Systems comprises 22
chapters, arranged into four sections, which present a
comprehensive analysis of various renewable energy-based
distributed generation (DG) technologies. Aspects of renewable
energy covered include wind and photovoltaic power systems and
technology, micro-grids, power electronic applications, power
quality, and the protection of renewable distributed generation.
In an era of increasing contributions from intermittent renewable
resources, energy storage is becoming more important to ensure a
resilient and reliable electricity supply. Energy Storage at
Different Voltage Levels presents the technology, integration and
market aspects of energy storage in the various generation,
transmission, distribution, and customer levels of the grid.
Starting with a comprehensive overview of energy storage
technologies and their emerging codes and standards, the book
discusses energy storage capacity requirements in electricity mix
scenarios at different levels; energy storage in microgrids; energy
storage in electricity markets; the role of storage in transmission
investment deferral and management of future planning uncertainty;
sizing of battery energy storage for end user application under
time of use pricing; evaluation of multiple storage benefits and
optimization of energy storage operations in distribution networks;
use and role of flywheel energy storage systems; forecasting and
optimization for multi-purpose application of energy storage
systems to deliver grid services (a case study of the smarter
network storage project); and optimal coordination between
generation and storage under uncertainties. Also included are
country-specific case studies from Romania, Italy and Turkey.
This book considers the emerging technologies and methodologies of
the application of computational intelligence to smart grids.From a
conceptual point of view, the smart grid is the convergence of
information and operational technologies applied to the electric
grid, allowing sustainable options to customers and improved levels
of security. Smart grid technologies include advanced sensing
systems, two-way high-speed communications, monitoring and
enterprise analysis software, and related services used to obtain
location-specific and real-time actionable data for the provision
of enhanced services for both system operators (i.e. distribution
automation, asset management, advanced metering infrastructure) and
end-users (i.e. demand side management, demand response).In this
context, a crucial issue is how to support the evolution of
existing electrical grids from static hierarchal systems to
self-organizing, highly scalable and pervasive networks. Modern
trends are oriented toward the employment of computational
intelligence techniques for deploying advanced control, protection
and monitoring architectures that move away from the older
centralized paradigm to systems distributed across the field with
an increasing pervasion of intelligence devices. The large-scale
deployment of computational intelligence technologies in smart
grids could lead to a more efficient tasks distribution amongst
energy resources and, consequently, to a sensible improvement of
the electrical grid flexibility.
Effects of environmental, economic, social, political and technical
factors have led to the rapid deployment of various sources of
renewable energy-based power generation. The incorporation of these
generation technologies have led to the development of a broad
array of new methods and tools to integrate this new form of
generation into the power system network. This book, arranged into
six sections, highlights various renewable energy based generation
technologies, and consists a series of papers written by experts in
their respective fields of specialization. The Handbook of
Renewable Energy Technology will be of great practical benefit to
professionals, scientists and researchers in the relevant
industries, and will be of interest to those of the general public
wanting to know more about renewable energy technologies.
Power systems are increasingly collecting large amounts of data due
to the expansion of the Internet of Things into power grids. In a
smart grids scenario, a huge number of intelligent devices will be
connected with almost no human intervention characterizing a
machine-to-machine scenario, which is one of the pillars of the
Internet of Things. The book characterizes and evaluates how the
emerging growth of data in communications networks applied to smart
grids will impact the grid efficiency and reliability.
Additionally, this book discusses the various security concerns
that become manifest with Big Data and expanded communications in
power grids. Provide a general description and definition of big
data, which has been gaining significant attention in the research
community. Introduces a comprehensive overview of big data
optimization methods in power system. Reviews the communication
devices used in critical infrastructure, especially power systems;
security methods available to vet the identity of devices; and
general security threats in CI networks. Presents applications in
power systems, such as power flow and protection. Reviews
electricity theft concerns and the wide variety of data-driven
techniques and applications developed for electricity theft
detection.
Decision Making Applications in Modern Power Systems presents an
enhanced decision-making framework for power systems. Designed as
an introduction to enhanced electricity system analysis using
decision-making tools, it provides an overview of the different
elements, levels and actors involved within an integrated framework
for decision-making in the power sector. In addition, it presents a
state-of-play on current energy systems, strategies, alternatives,
viewpoints and priorities in support of decision-making in the
electric power sector, including discussions of energy storage and
smart grids. As a practical training guide on theoretical
developments and the application of advanced methods for practical
electrical energy engineering problems, this reference is ideal for
use in establishing medium-term and long-term strategic plans for
the electric power and energy sectors.
The book presents new approaches and methods for solving real-world
problems. It offers, in particular, exploratory research that
describes novel approaches in the fields of Cognitive Informatics,
Cognitive Computing, Computational Intelligence, Advanced
Computing, Hybrid Intelligent Models and Applications. New
algorithms and methods in a variety of fields are also presented,
together with solution-based approaches. The topics addressed
include various theoretical aspects and applications of Computer
Science, Artificial Intelligence, Cybernetics, Automation Control
Theory and Software Engineering.
Uncertainties in Modern Power Systems combines several aspects of
uncertainty management in power systems at the planning and
operation stages within an integrated framework. This book provides
the state-of-the-art in electric network planning, including
time-scales, reliability, quality, optimal allocation of
compensators and distributed generators, mathematical formulation,
and search algorithms. The book introduces innovative research
outcomes, programs, algorithms, and approaches that consolidate the
present status and future opportunities and challenges of power
systems. The book also offers a comprehensive description of the
overall process in terms of understanding, creating, data
gathering, and managing complex electrical engineering applications
with uncertainties. This reference is useful for researchers,
engineers, and operators in power distribution systems.
This book discusses advanced technologies for applications in
renewable energy and power systems. The topics covered include
neural network applications in power electronics, deep learning
applications in power systems, design and simulation of multilevel
inverters, solid state transformers, neural network applications
for fault detection in power electronics, etc. The book also
discusses the important role of artificial intelligence in power
systems, and machine learning for renewable energy. This book will
be of interest to researchers, professionals, and technocrats
looking at power systems, power distribution, and grid operations.
This textbook is the first of its kind to comprehensively describe
the energy Internet, a vast network that efficiently supplies
electricity to anyone anywhere and is an internet based wide area
network for information and energy fusion. The chapters are
organized into five parts: Architecture and Design, Energy
Switching and Routing, Information and Communication, Energy
Management Systems and Energy Market and Trading, and capture the
spectrum of this exponential transformation, while also presenting
the plethora of open problems that this transformation poses for
researchers from mixed academic backgrounds. The scope includes key
technologies on distributed energy sources, microgrids, energy
storage, solar and wind energy, power grid, smart grid, power
quality, power electronics, data centers, distributed computing and
networking, cloud computing and big data, and software-defined
networking. The book presents the basic principles of energy
internet and emphasizes the current research trends in the field of
energy Internet at an advanced level. It includes instructor
materials, case-studies, and worked examples throughout. This is an
ideal resource for students in advanced graduate-level courses and
special topics in energy, information and control systems, and is a
useful tool for utility engineers who seek an intuitive
understanding of the emerging applications of energy Internet.
Power systems are increasingly collecting large amounts of data due
to the expansion of the Internet of Things into power grids. In a
smart grids scenario, a huge number of intelligent devices will be
connected with almost no human intervention characterizing a
machine-to-machine scenario, which is one of the pillars of the
Internet of Things. The book characterizes and evaluates how the
emerging growth of data in communications networks applied to smart
grids will impact the grid efficiency and reliability.
Additionally, this book discusses the various security concerns
that become manifest with Big Data and expanded communications in
power grids. Provide a general description and definition of big
data, which has been gaining significant attention in the research
community. Introduces a comprehensive overview of big data
optimization methods in power system. Reviews the communication
devices used in critical infrastructure, especially power systems;
security methods available to vet the identity of devices; and
general security threats in CI networks. Presents applications in
power systems, such as power flow and protection. Reviews
electricity theft concerns and the wide variety of data-driven
techniques and applications developed for electricity theft
detection.
Classical and Recent Aspects of Power System Optimization presents
conventional and meta-heuristic optimization methods and algorithms
for power system studies. The classic aspects of optimization in
power systems, such as optimal power flow, economic dispatch, unit
commitment and power quality optimization are covered, as are
issues relating to distributed generation sizing, allocation
problems, scheduling of renewable resources, energy storage, power
reserve based problems, efficient use of smart grid capabilities,
and protection studies in modern power systems. The book brings
together innovative research outcomes, programs, algorithms and
approaches that consolidate the present state and future challenges
for power.
Power quality is necessary for electrical systems to operate in
their intended manner without any deterioration of performance.
This book highlights the new emerging challenges of power quality
due to the penetration of large-scale renewable energy generation
technologies, the advances in nonlinear loads, the increased
electricity demands in the deregulated market, and the recent
requirements of smart grids that need better hierarchical design
with enhanced quality, improved controllability, higher
reliability, and security. Novel research that links the past,
present and future of electrical power grids from a power quality
perspective is also introduced. Topics include power quality
definitions; frequency-domain power theory and metering of harmonic
pollution responsibility; active and passive harmonic filters;
shunt flexible AC transmission; power quality improvement using
series FACTS; distributed generation systems; islanding scenario
generation algorithm; decentralised voltage control in smart grids;
techno-economic issues of power quality; economic robust
programming for energy management systems; and future trends in
power quality. Power Quality in Future Electrical Power Systems is
a tool for planners, designers, operators and practicing engineers
of electrical power systems who are concerned with power network
quality, reliability, and security. It is essential reading for
postgraduate students, engineers, academics, and researchers who
have some background in electrical power systems.
The book presents papers from the 7th International Conference on
Big Data and Cloud Computing Challenges (ICBCC 2022). The book
includes high-quality, original research on various aspects of big
data and cloud computing, offering perspectives from the industrial
and research communities on addressing the current challenges in
the field. This book discusses key issues and highlights recent
advances in a single broad topic applicable to different sub-fields
by exploring various multidisciplinary technologies. This book
supports the transfer of vital knowledge to next-generation
researchers, students, and practitioners in academia and industry.
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