This book provides an overview of the most recent advances and innovations in the subject of hydrogen separation, its applications, and the role of membranes in this process. It starts with the fundamental principles underlying hydrogen separation and the various types of membranes that are used for hydrogen separation. Furthermore, it explains different fabrication methods, including characterization techniques used to evaluate performance and properties. Finally, it covers diverse applications of hydrogen separation membranes backed by case studies and examples.

Features:



Covers several forms of hydrogen membranes, such as polymeric, metallic, and ceramic membranes and provides a thorough understanding of their manufacturing, construction, and applications.
Explores recent advancements in materials used for the fabrication of hydrogen membranes.
Focuses on theoretical concepts and practical applications of hydrogen separation membranes.
Explains the role of hydrogen membranes in the transition toward a sustainable energy future.
Discusses real-world case studies, industrial applications, and potential future uses.
Emphasizes real-world applications of hydrogen membranes in fields such as fuel cells, hydrogen generation, and carbon capture.

This book is aimed at academics, energy professionals, engineers, researchers, and scientists working on sustainable energy solutions. Readers will obtain a detailed grasp of hydrogen membrane technology, from basic principles to sophisticated applications, giving them the capacity to innovate further.