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This book explains the aspiring vision of a sustainable hydrogen
generating system which employs nanotechnology one way or the other
and presents a detailed update on research activities, achievements
and challenges. It explores how nanotechnology is reshaping science
in general and how this can be applied to the generation and
storage of hydrogen energy. This book begins by highlighting the
importance of hydrogen a source of sustainable energy and its
impact on the technical advances of fuel cells, internal combustion
engines, batteries and power plants. The book depicts the role of
nanotechnology in the development of sustainable hydrogen.
Comprehensive studies on various nanotechnologies involved in
hydrogen generation are discussed in separate chapters,
representing a complete picture of hydrogen generation utilizing
nanotechnology. This book serves as a useful research tool for
academics and practitioners looking towards new ways to develop and
consume energy, without conceding our environment. Providing the
advantages and disadvantages of each technology discussed, this
book shows the benefits of utilizing nanotechnology in this field.
This book explains the aspiring vision of a sustainable hydrogen
generating system which employs nanotechnology one way or the other
and presents a detailed update on research activities, achievements
and challenges. It explores how nanotechnology is reshaping science
in general and how this can be applied to the generation and
storage of hydrogen energy. This book begins by highlighting the
importance of hydrogen a source of sustainable energy and its
impact on the technical advances of fuel cells, internal combustion
engines, batteries and power plants. The book depicts the role of
nanotechnology in the development of sustainable hydrogen.
Comprehensive studies on various nanotechnologies involved in
hydrogen generation are discussed in separate chapters,
representing a complete picture of hydrogen generation utilizing
nanotechnology. This book serves as a useful research tool for
academics and practitioners looking towards new ways to develop and
consume energy, without conceding our environment. Providing the
advantages and disadvantages of each technology discussed, this
book shows the benefits of utilizing nanotechnology in this field.
This book highlights the importance of Facilitated Transport
Membranes (FTMs) for the application of carbon capture, covering
its introduction, gas transport phenomena and models, reaction
mechanisms, industrial applications such as bio-gas upgradation,
flue gas separation, hydrogen gas and natural gas purification,
fabrication methods of both FTMs and their carrier mediums,
testing/characterization techniques, techno-analysis with
up-to-date trends and the future outlooks. Climate change and
environmental impacts are resulted due to greenhouse gases,
particularly CO2. The industrial revolution is currently causing
the augmented emission of greenhouse gases. Therefore, various
technologies are being looked at to overcome these problems. In
which, membrane technology is key among them and is envisaged for
many industrial applications, especially for gas separations and
carbon capture. Considering this, FTMs are being actively
investigated due to their remarkable gas separation performance.
This book describes the working principle of FTMs and includes case
studies to explore their impact on different industrial
applications. Also, the book highlights how FTMs are reshaping
science to capture CO2 for reducing climate and environmental
impacts.
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