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This new volume focuses on different aspects of composite systems
that are associated with research and development, helping to
bridge the gap between classical analysis and modern real-life
applications. The chapters look at the experimental and theoretical
aspects of composite materials, regarding preparation, processing,
design, properties, and practical implications. It also presents
recent advancements, research, and development prospects of
advanced composite materials that provide new solutions for
advanced technologies.
One of the major areas of emphasis in the field of in chemical
science and engineering technology in recent years has been
interdisciplinary research, a trend that promises new insights and
innovations rooted in cross-disciplinary collaboration. This volume
is designed for stepping beyond traditional disciplinary boundaries
and applying knowledge and insights from multiple fields. This
book, Chemical Science and Engineering Technology: Perspectives on
Interdisciplinary Research, provides a selection of chapters on
interdisciplinary research in chemical science and engineering
technology, taking a conceptual, and practical approach. The book
includes case studies and supporting technologies and also explains
the conceptual thinking behind current uses and potential uses not
yet implemented. International experts with countless years of
experience lend this volume credibility.
With coverage of a broad range of key engineering materials, this
book provides a single, comprehensive book summarizing all aspects
involved in the functional materials production chain. It
introduces state-of-the-art technology in key engineering
materials, emphasizing the rapidly growing technologies. It takes a
unique approach by presenting specific materials, then progresses
into a discussion of the ways in which these novel materials and
processes are integrated into today's functioning manufacturing
industry. The book follows a more quantitative and design-oriented
approach than other texts in the market, helping readers gain a
better understanding of important concepts. They'll also discover
how material properties relate to the process variables in a given
process as well as how to perform quantitative engineering analysis
of manufacturing processes.
This volume brings together innovative research, new concepts, and
novel developments in the application of new tools for chemical and
materials engineers. It contains significant research, reporting
new methodologies and important applications in the fields of
chemical engineering as well as the latest coverage of chemical
databases and the development of new methods and efficient
approaches for chemists. This authoritative reference source
provides the latest scholarly research on the use of applied
concepts to enhance the current trends and productivity in chemical
engineering. Highlighting theoretical foundations, real-world
cases, and future directions, this book is ideally designed for
researchers, practitioners, professionals, and students of
materials chemistry and chemical engineering. The volume explains
and discusses new theories and presents case studies concerning
material and chemical engineering. The book is divided into several
sections, covering: Advanced Materials Chemoinformatics,
Computational Chemistry, and Smart Technologies Analytical and
Experimental Techniques
Understanding mathematical modeling is fundamental in chemical
engineering. This book reviews, introduces, and develops the
mathematical models that are most frequently encountered in
sophisticated chemical engineering domains. The volume provides a
collection of models illustrating the power and richness of the
mathematical sciences in supplying insight into the operation of
important real-world systems. It fills a gap within modeling texts,
focusing on applications across a broad range of disciplines. The
first part of the book discusses the general components of the
modeling process and highlights the potential of modeling in the
production of nanofibers. These chapters discuss the general
components of the modeling process and the evolutionary nature of
successful model building in the electrospinning process.
Electrospinning is the most versatile technique for the preparation
of continuous nanofibers obtained from numerous materials. This
section of book summarizes the state-of-the art in electrospinning
as well as updates on theoretical aspects and applications. Part 2
of the book presents a selection of special topics on issues in
applied chemistry and chemical engineering, including nanocomposite
coating processes by electrocodeposition method, entropic factors
conformational interactions, and the application of artificial
neural network and meta-heuristic algorithms. This volume covers a
wide range of topics in mathematical modeling, computational
science, and applied mathematics. It presents a wealth of new
results in the development of modeling theories and methods,
advancing diverse areas of applications and promoting
interdisciplinary interactions between mathematicians, scientists,
engineers and representatives from other disciplines.
Applied Chemistry and Chemical Engineering, Volume 4: Experimental
Techniques and Methodical Developments provides a detailed yet
easy-to-follow treatment of various techniques useful for
characterizing the structure and properties of engineering
materials. This timely volume provides an overview of new methods
and presents experimental research in applied chemistry using
modern approaches. Each chapter describes the principle of the
respective method as well as the detailed procedures of experiments
with examples of actual applications and then goes on to
demonstrate the advantage and disadvantages of each physical
technique. Thus, readers will be able to apply the concepts as
described in the book to their own experiments. The book is broken
into several subsections: Polymer Chemistry and Technology
Computational Approaches Clinical Chemistry and Bioinformatics
Special Topics This volume presents research and reviews and
information on implementing and sustaining interdisciplinary
studies in science, technology, engineering, and mathematics.
This volume, Applied Chemistry and Chemical Engineering, Volume 5:
Research Methodologies in Modern Chemistry and Applied Science, is
designed to fulfill the requirements of scientists and engineers
who wish to be able to carry out experimental research in chemistry
and applied science using modern methods. Each chapter describes
the principle of the respective method, as well as the detailed
procedures of experiments with examples of actual applications.
Thus, readers will be able to apply the concepts as described in
the book to their own experiments. This book traces the progress
made in this field and its sub-fields and also highlight some of
the key theories and their applications and will be a valuable
resource for chemical engineers in Materials Science and others.
With coverage of a broad range of key engineering materials, this
book provides a single, comprehensive book summarizing all aspects
involved in the functional materials production chain. It
introduces state-of-the-art technology in key engineering
materials, emphasizing the rapidly growing technologies. It takes a
unique approach by presenting specific materials, then progresses
into a discussion of the ways in which these novel materials and
processes are integrated into today's functioning manufacturing
industry. The book follows a more quantitative and design-oriented
approach than other texts in the market, helping readers gain a
better understanding of important concepts. They'll also discover
how material properties relate to the process variables in a given
process as well as how to perform quantitative engineering analysis
of manufacturing processes.
One of the major areas of emphasis in the field of in chemical
science and engineering technology in recent years has been
interdisciplinary research, a trend that promises new insights and
innovations rooted in cross-disciplinary collaboration. This volume
is designed for stepping beyond traditional disciplinary boundaries
and applying knowledge and insights from multiple fields. This
book, Chemical Science and Engineering Technology: Perspectives on
Interdisciplinary Research, provides a selection of chapters on
interdisciplinary research in chemical science and engineering
technology, taking a conceptual, and practical approach. The book
includes case studies and supporting technologies and also explains
the conceptual thinking behind current uses and potential uses not
yet implemented. International experts with countless years of
experience lend this volume credibility.
This new book brings together innovative research, new concepts,
and novel developments in the application of informatics tools for
applied chemistry and computer science. It presents a modern
approach to modeling and calculation and also looks at experimental
design in applied chemistry and chemical engineering. The volume
discusses the developments of advanced chemical products and
respective tools to characterize and predict the chemical material
properties and behavior. Providing numerous comparisons of
different methods with one another and with different experiments,
not only does this book summarize the classical theories, but it
also exhibits their engineering applications in response to the
current key issues. Recent trends in several areas of chemistry and
chemical engineering science, which have important application to
practice, are discussed. Applied Chemistry and Chemical
Engineering: Volume 1: Mathematical and Analytical Techniques
provides valuable information for chemical engineers and
researchers as well as for graduate students. It demonstrates the
progress and promise for developing chemical materials that seem
capable of moving this field from laboratory-scale prototypes to
actual industrial applications. Volume 2 will focus principles and
methodologies in applied chemistry and chemical engineering.
Presenting illustrative case studies, highlighting technological
applications, and explaining theoretical and foundational concepts,
this book is an important reference source on the key concepts for
modern technologies and optimization of new processes in physical
chemistry. This volume combines up-to-date research findings and
relevant theoretical frameworks on applied chemistry, materials,
and chemical engineering. This new volume presents an up-to-date
review of modern materials and chemistry concepts, issues, and
recent advances in the field. Distinguished scientists and
engineers from key institutions worldwide have contributed chapters
that provide a deep analysis of their particular subjects. At the
same time, each topic is framed within the context of a broader
more multidisciplinary approach, demonstrating its relationship and
interconnectedness to other areas. The premise of this book,
therefore, is to offer both a comprehensive understanding of
applied science and engineering as a whole and a thorough knowledge
of individual subjects. This approach appropriately conveys the
basic fundamentals, state-of-the-art technology, and applications
of the involved disciplines, and further encourages scientific
collaboration among researchers. This volume emphasizes the
intersection of chemistry, math, physics, and the resulting
applications across many disciplines of science and explores
applied physical chemistry principles in specific areas, including
the life chemistry, environmental sciences, geosciences, and
materials sciences. The applications from these multidisciplinary
fields illustrate methods that can be used to model physical
processes, design new products and find solutions to challenging
problems.
This new volume focuses on different aspects of composite systems
that are associated with research and development, helping to
bridge the gap between classical analysis and modern real-life
applications. The chapters look at the experimental and theoretical
aspects of composite materials, regarding preparation, processing,
design, properties, and practical implications. It also presents
recent advancements, research, and development prospects of
advanced composite materials that provide new solutions for
advanced technologies.
Presenting illustrative case studies, highlighting technological
applications, and explaining theoretical and foundational concepts,
this book is an important reference source on the key concepts for
modern technologies and optimization of new processes in physical
chemistry. This volume combines up-to-date research findings and
relevant theoretical frameworks on applied chemistry, materials,
and chemical engineering. This new volume presents an up-to-date
review of modern materials and chemistry concepts, issues, and
recent advances in the field. Distinguished scientists and
engineers from key institutions worldwide have contributed chapters
that provide a deep analysis of their particular subjects. At the
same time, each topic is framed within the context of a broader
more multidisciplinary approach, demonstrating its relationship and
interconnectedness to other areas. The premise of this book,
therefore, is to offer both a comprehensive understanding of
applied science and engineering as a whole and a thorough knowledge
of individual subjects. This approach appropriately conveys the
basic fundamentals, state-of-the-art technology, and applications
of the involved disciplines, and further encourages scientific
collaboration among researchers. This volume emphasizes the
intersection of chemistry, math, physics, and the resulting
applications across many disciplines of science and explores
applied physical chemistry principles in specific areas, including
the life chemistry, environmental sciences, geosciences, and
materials sciences. The applications from these multidisciplinary
fields illustrate methods that can be used to model physical
processes, design new products and find solutions to challenging
problems.
This volume, Applied Chemistry and Chemical Engineering, Volume 5:
Research Methodologies in Modern Chemistry and Applied Science, is
designed to fulfill the requirements of scientists and engineers
who wish to be able to carry out experimental research in chemistry
and applied science using modern methods. Each chapter describes
the principle of the respective method, as well as the detailed
procedures of experiments with examples of actual applications.
Thus, readers will be able to apply the concepts as described in
the book to their own experiments. This book traces the progress
made in this field and its sub-fields and also highlight some of
the key theories and their applications and will be a valuable
resource for chemical engineers in Materials Science and others.
Understanding mathematical modeling is fundamental in chemical
engineering. This book reviews, introduces, and develops the
mathematical models that are most frequently encountered in
sophisticated chemical engineering domains. The volume provides a
collection of models illustrating the power and richness of the
mathematical sciences in supplying insight into the operation of
important real-world systems. It fills a gap within modeling texts,
focusing on applications across a broad range of disciplines. The
first part of the book discusses the general components of the
modeling process and highlights the potential of modeling in the
production of nanofibers. These chapters discuss the general
components of the modeling process and the evolutionary nature of
successful model building in the electrospinning process.
Electrospinning is the most versatile technique for the preparation
of continuous nanofibers obtained from numerous materials. This
section of book summarizes the state-of-the art in electrospinning
as well as updates on theoretical aspects and applications. Part 2
of the book presents a selection of special topics on issues in
applied chemistry and chemical engineering, including nanocomposite
coating processes by electrocodeposition method, entropic factors
conformational interactions, and the application of artificial
neural network and meta-heuristic algorithms. This volume covers a
wide range of topics in mathematical modeling, computational
science, and applied mathematics. It presents a wealth of new
results in the development of modeling theories and methods,
advancing diverse areas of applications and promoting
interdisciplinary interactions between mathematicians, scientists,
engineers and representatives from other disciplines.
This new book brings together innovative research, new concepts,
and novel developments in the application of informatics tools for
applied chemistry and computer science. It presents a modern
approach to modeling and calculation and also looks at experimental
design in applied chemistry and chemical engineering. The volume
discusses the developments of advanced chemical products and
respective tools to characterize and predict the chemical material
properties and behavior. Providing numerous comparisons of
different methods with one another and with different experiments,
not only does this book summarize the classical theories, but it
also exhibits their engineering applications in response to the
current key issues. Recent trends in several areas of chemistry and
chemical engineering science, which have important application to
practice, are discussed. Applied Chemistry and Chemical
Engineering: Volume 1: Mathematical and Analytical Techniques
provides valuable information for chemical engineers and
researchers as well as for graduate students. It demonstrates the
progress and promise for developing chemical materials that seem
capable of moving this field from laboratory-scale prototypes to
actual industrial applications. Volume 2 will focus principles and
methodologies in applied chemistry and chemical engineering.
Applied Chemistry and Chemical Engineering, Volume 4: Experimental
Techniques and Methodical Developments provides a detailed yet
easy-to-follow treatment of various techniques useful for
characterizing the structure and properties of engineering
materials. This timely volume provides an overview of new methods
and presents experimental research in applied chemistry using
modern approaches. Each chapter describes the principle of the
respective method as well as the detailed procedures of experiments
with examples of actual applications and then goes on to
demonstrate the advantage and disadvantages of each physical
technique. Thus, readers will be able to apply the concepts as
described in the book to their own experiments. The book is broken
into several subsections: Polymer Chemistry and Technology
Computational Approaches Clinical Chemistry and Bioinformatics
Special Topics This volume presents research and reviews and
information on implementing and sustaining interdisciplinary
studies in science, technology, engineering, and mathematics.
This volume brings together innovative research, new concepts, and
novel developments in the application of new tools for chemical and
materials engineers. It contains significant research, reporting
new methodologies and important applications in the fields of
chemical engineering as well as the latest coverage of chemical
databases and the development of new methods and efficient
approaches for chemists. This authoritative reference source
provides the latest scholarly research on the use of applied
concepts to enhance the current trends and productivity in chemical
engineering. Highlighting theoretical foundations, real-world
cases, and future directions, this book is ideally designed for
researchers, practitioners, professionals, and students of
materials chemistry and chemical engineering. The volume explains
and discusses new theories and presents case studies concerning
material and chemical engineering. The book is divided into several
sections, covering: Advanced Materials Chemoinformatics,
Computational Chemistry, and Smart Technologies Analytical and
Experimental Techniques
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