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Computational Fluid Dynamics: A Practical Approach, Fourth Edition
is an introduction to computational fluid dynamics (CFD)
fundamentals and commercial CFD software to solve engineering
problems. The book is designed for a wide variety of engineering
students new to CFD, but is also ideal for practicing engineers
learning CFD for the first time. Combining an appropriate level of
mathematical background, worked examples, computer screen shots,
and step-by-step processes, this book walks the reader through
modeling and computing, as well as interpreting CFD results. This
new edition has been updated throughout, with new content and
improved figures, examples and problems.
This book introduces readers to gas flows and heat transfer in
pebble bed reactor cores. It addresses fundamental issues regarding
experimental and modeling methods for complex multiphase systems,
as well as relevant applications and recent research advances. The
numerical methods and experimental measurements/techniques used to
solve pebble flows, as well as the content on radiation modeling
for high-temperature pebble beds, will be of particular interest.
This book is intended for a broad readership, including researchers
and practitioners, and is sure to become a key reference resource
for students and professionals alike.
This book explores computational fluid dynamics in the context of
the human nose, allowing readers to gain a better understanding of
its anatomy and physiology and integrates recent advances in
clinical rhinology, otolaryngology and respiratory physiology
research. It focuses on advanced research topics, such as virtual
surgery, AI-assisted clinical applications and therapy, as well as
the latest computational modeling techniques, controversies,
challenges and future directions in simulation using CFD software.
Presenting perspectives and insights from computational experts and
clinical specialists (ENT) combined with technical details of the
computational modeling techniques from engineers, this unique
reference book will give direction to and inspire future research
in this emerging field.
This book explores computational fluid dynamics in the context of
the human nose, allowing readers to gain a better understanding of
its anatomy and physiology and integrates recent advances in
clinical rhinology, otolaryngology and respiratory physiology
research. It focuses on advanced research topics, such as virtual
surgery, AI-assisted clinical applications and therapy, as well as
the latest computational modeling techniques, controversies,
challenges and future directions in simulation using CFD software.
Presenting perspectives and insights from computational experts and
clinical specialists (ENT) combined with technical details of the
computational modeling techniques from engineers, this unique
reference book will give direction to and inspire future research
in this emerging field.
This book discusses geometric and mathematical models that can be
used to study fluid and structural mechanics in the cardiovascular
system. Where traditional research methodologies in the human
cardiovascular system are challenging due to its invasive nature,
several recent advances in medical imaging and computational fluid
and solid mechanics modelling now provide new and exciting research
opportunities. This emerging field of study is multi-disciplinary,
involving numerical methods, computational science, fluid and
structural mechanics, and biomedical engineering. Certainly any new
student or researcher in this field may feel overwhelmed by the
wide range of disciplines that need to be understood. This unique
book is one of the first to bring together knowledge from multiple
disciplines, providing a starting point to each of the individual
disciplines involved, attempting to ease the steep learning curve.
This book presents elementary knowledge on the physiology of the
cardiovascular system; basic knowledge and techniques on
reconstructing geometric models from medical imaging; mathematics
that describe fluid and structural mechanics, and corresponding
numerical/computational methods to solve its equations and
problems. Many practical examples and case studies are presented to
reinforce best practice guidelines for setting high quality
computational models and simulations. These examples contain a
large number of images for visualization, to explain cardiovascular
physiological functions and disease. The reader is then exposed to
some of the latest research activities through a summary of
breakthrough research models, findings, and techniques. The
book’s approach is aimed at students and researchers entering
this field from engineering, applied mathematics, biotechnology or
medicine, wishing to engage in this emerging and exciting field of
computational hemodynamics modelling.
This book discusses geometric and mathematical models that can be
used to study fluid and structural mechanics in the cardiovascular
system. Where traditional research methodologies in the human
cardiovascular system are challenging due to its invasive nature,
several recent advances in medical imaging and computational fluid
and solid mechanics modelling now provide new and exciting research
opportunities. This emerging field of study is multi-disciplinary,
involving numerical methods, computational science, fluid and
structural mechanics, and biomedical engineering. Certainly any new
student or researcher in this field may feel overwhelmed by the
wide range of disciplines that need to be understood. This unique
book is one of the first to bring together knowledge from multiple
disciplines, providing a starting point to each of the individual
disciplines involved, attempting to ease the steep learning curve.
This book presents elementary knowledge on the physiology of the
cardiovascular system; basic knowledge and techniques on
reconstructing geometric models from medical imaging; mathematics
that describe fluid and structural mechanics, and corresponding
numerical/computational methods to solve its equations and
problems. Many practical examples and case studies are presented to
reinforce best practice guidelines for setting high quality
computational models and simulations. These examples contain a
large number of images for visualization, to explain cardiovascular
physiological functions and disease. The reader is then exposed to
some of the latest research activities through a summary of
breakthrough research models, findings, and techniques. The book's
approach is aimed at students and researchers entering this field
from engineering, applied mathematics, biotechnology or medicine,
wishing to engage in this emerging and exciting field of
computational hemodynamics modelling.
Traditional research methodologies in the human respiratory system
have always been challenging due to their invasive nature. Recent
advances in medical imaging and computational fluid dynamics (CFD)
have accelerated this research. This book compiles and details
recent advances in the modelling of the respiratory system for
researchers, engineers, scientists, and health practitioners. It
breaks down the complexities of this field and provides both
students and scientists with an introduction and starting point to
the physiology of the respiratory system, fluid dynamics and
advanced CFD modeling tools. In addition to a brief introduction to
the physics of the respiratory system and an overview of
computational methods, the book contains best-practice guidelines
for establishing high-quality computational models and simulations.
Inspiration for new simulations can be gained through innovative
case studies as well as hands-on practice using pre-made
computational code. Last but not least, students and researchers
are presented the latest biomedical research activities, and the
computational visualizations will enhance their understanding of
physiological functions of the respiratory system.
Traditional research methodologies in the human respiratory system
have always been challenging due to their invasive nature. Recent
advances in medical imaging and computational fluid dynamics (CFD)
have accelerated this research. This book compiles and details
recent advances in the modelling of the respiratory system for
researchers, engineers, scientists, and health practitioners. It
breaks down the complexities of this field and provides both
students and scientists with an introduction and starting point to
the physiology of the respiratory system, fluid dynamics and
advanced CFD modeling tools. In addition to a brief introduction to
the physics of the respiratory system and an overview of
computational methods, the book contains best-practice guidelines
for establishing high-quality computational models and simulations.
Inspiration for new simulations can be gained through innovative
case studies as well as hands-on practice using pre-made
computational code. Last but not least, students and researchers
are presented the latest biomedical research activities, and the
computational visualizations will enhance their understanding of
physiological functions of the respiratory system.
Computational Techniques for Multiphase Flows, Second Edition,
provides the latest research and theories covering the most popular
multiphase flows The book begins with an overview of the
state-of-the-art techniques for multiple numerical methods in
handling multiphase flow, compares them, and finally highlights
their strengths and weaknesses. In addition, it covers more
straightforward, conventional theories and governing equations in
early chapters, moving on to the more modern and complex
computational models and tools later in the book. It is therefore
accessible to those who may be new to the subject while also
featuring topics of interest to the more experienced researcher.
Mixed or multiphase flows of solid/liquid or solid/gas are commonly
found in many industrial fields, and their behavior is complex and
difficult to predict in many cases. The use of computational fluid
dynamics (CFD) has emerged as a powerful tool for understanding
fluid mechanics in multiphase reactors, which are widely used in
the chemical, petroleum, mining, food, automotive, energy,
aerospace and pharmaceutical industries. This revised edition is an
ideal reference for scientists, MSc students and chemical and
mechanical engineers in these areas.
Computational Fluid Dynamics: A Practical Approach, Third Edition,
is an introduction to CFD fundamentals and commercial CFD software
to solve engineering problems. The book is designed for a wide
variety of engineering students new to CFD, and for practicing
engineers learning CFD for the first time. Combining an appropriate
level of mathematical background, worked examples, computer screen
shots, and step-by-step processes, this book walks the reader
through modeling and computing, as well as interpreting CFD
results. This new edition has been updated throughout, with new
content and improved figures, examples and problems.
Gas-Particle and Granular Flow Systems: Coupled Numerical Methods
and Applications breaks down complexities, details numerical
methods (including basic theory, modeling and techniques in
programming), and provides researchers with an introduction and
starting point to each of the disciplines involved. As the modeling
of gas-particle and granular flow systems is an emerging
interdisciplinary field of study involving mathematics, numerical
methods, computational science, and mechanical, chemical and
nuclear engineering, this book provides an ideal resource for new
researchers who are often intimidated by the complexities of
fluid-particle, particle-particle, and particle-wall interactions
in many disciplines.
Written by leading multiphase flow and CFD experts, this book
enables engineers and researchers to understand the use of PBM and
CFD frameworks. Population balance approaches can now be used in
conjunction with CFD, effectively driving more efficient and
effective multiphase flow processes. Engineers familiar with
standard CFD software, including ANSYS-CFX and ANSYS-Fluent, will
be able to use the tools and approaches presented in this book in
the effective research, modeling and control of multiphase flow
problems.
Builds a complete understanding of the theory behind the
application of population balance models and an appreciation of the
scale-up of computational fluid dynamics (CFD) and population
balance modeling (PBM) to a variety of engineering and industry
applications in chemical, pharmaceutical, energy and petrochemical
sectors The tools in this book provide the opportunity to
incorporate more accurate models in the design of chemical and
particulate based multiphase processesEnables readers to translate
theory to practical use with CFD software
This book introduces readers to gas flows and heat transfer in
pebble bed reactor cores. It addresses fundamental issues regarding
experimental and modeling methods for complex multiphase systems,
as well as relevant applications and recent research advances. The
numerical methods and experimental measurements/techniques used to
solve pebble flows, as well as the content on radiation modeling
for high-temperature pebble beds, will be of particular interest.
This book is intended for a broad readership, including researchers
and practitioners, and is sure to become a key reference resource
for students and professionals alike.
This book presents a road map for applying the stages in
conceptualization, evaluation, and testing of biomedical devices in
a systematic order of approach, leading to solutions for medical
problems within a well-deserved safety limit. The issues discussed
will pave the way for understanding the preliminary concepts used
in modern biomedical device engineering, which include medical
imaging, computational fluid dynamics, finite element analysis,
particle image velocimetry, and rapid prototyping. This book would
undoubtedly be of use to biomedical engineers, medical doctors,
radiologists, and any other professionals related to the research
and development of devices for health care.
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