Flow Cells for Electrochemical Energy Systems: Fundamentals and Applications
Flow Cells for Electrochemical Energy Systems: Fundamentals and Applications
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- More about Flow Cells for Electrochemical Energy Systems: Fundamentals and Applications
The book is a comprehensive review of flow cells for electrochemical energy systems, covering proton exchange membrane fuel cells, photocatalytic fuel cells, organic flow batteries, redox flow batteries, microfluidic flow cells, and electrolysis cells for CO2 and nitrogen reduction. It is an essential reference for academics, researchers, and policymakers worldwide.
Format: Hardback
Length: 253 pages
Publication date: 12 August 2023
Publisher: Springer International Publishing AG
This comprehensive book offers a cutting-edge overview of the latest developments in flow cells for electrochemical energy systems. It serves as an invaluable resource for professors, researchers, and policymakers across academia, industry, and government. The book begins with an introduction to flow cells, followed by detailed discussions on proton exchange membrane fuel cells, photocatalytic fuel cells, organic flow batteries, redox flow batteries, microfluidic flow cells, and electrolysis cells for CO2 and nitrogen reduction.
Flow cells are essential components in electrochemical energy systems, as they facilitate the conversion of energy into electrical power. They are used in various applications, including transportation, energy storage, and renewable energy generation. In this book, the authors provide a comprehensive overview of the different types of flow cells, their characteristics, and their applications.
Proton exchange membrane fuel cells (PEMFCs) are one of the most popular types of flow cells. They use a proton exchange membrane to separate hydrogen from oxygen, which is then used to generate electricity. PEMFCs are highly efficient, but they require a constant supply of hydrogen and oxygen. They are also susceptible to corrosion and degradation.
Photocatalytic fuel cells (PFCs) are another type of flow cell. They use sunlight to convert water and carbon dioxide into hydrogen and oxygen. PFCs are highly efficient, but they require a constant supply of sunlight. They are also susceptible to corrosion and degradation.
Organic flow batteries (OFBs) are a new type of flow cell that uses organic compounds as the electrolyte. OFBs are highly efficient, but they require a constant supply of organic compounds. They are also susceptible to corrosion and degradation.
Redox flow batteries (RFBs) are a type of flow cell that uses redox reactions to generate electricity. RFBs are highly efficient, but they require a constant supply of redox reagents. They are also susceptible to corrosion and degradation.
Microfluidic flow cells (MFCs) are a new type of flow cell that uses microfluidics to control the flow of fluids. MFCs are highly efficient, but they require a constant supply of microfluidic components. They are also susceptible to corrosion and degradation.
Electrolysis cells for CO2 and nitrogen reduction are a new type of flow cell that uses electrolysis to convert CO2 and nitrogen into hydrogen and oxygen. Electrolysis cells are highly efficient, but they require a constant supply of electricity.
The book also provides a detailed discussion of the challenges associated with flow cells, such as cost, efficiency, and durability. The authors provide solutions to these challenges, such as the development of new materials, the optimization of flow cell designs, and the implementation of control strategies.
In conclusion, this book is a state-of-the-art review on recent advances in flow cells for electrochemical energy systems. It provides an essential reference for professors, researchers, and policymakers globally in academia, industry, and government. The book covers a wide range of topics, including proton exchange membrane fuel cells, photocatalytic fuel cells, organic flow batteries, redox flow batteries, microfluidic flow cells, and electrolysis cells for CO2 and nitrogen reduction. The book provides a comprehensive overview of the different types of flow cells, their characteristics, and their applications, and it also provides solutions to the challenges associated with flow cells.
Dimension: 235 x 155 (mm)
ISBN-13: 9783031372704
Edition number: 1st ed. 2023
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