Corrosion Challenges and Material Selection in Low-Carbon Energy Systems

Corrosion Challenges and Material Selection in Low-Carbon Energy Systems: Hydrogen and CO? Environment is an essential resource for engineers, researchers, and industry professionals involved in the design, operation, and maintenance of hydrogen and CO? infrastructure. The book offers in-depth insights into corrosion mechanisms, material selection strategies, and failure prevention techniques specific to low-carbon energy applications. Featuring real-world case studies, industry standards, and emerging technologies, this guide helps ensure the integrity, safety, and longevity of critical energy systems while supporting the transition to sustainable, low-carbon solutions.

. Focuses on corrosion challenges and material selection specifically in low-carbon energy systems involving hydrogen and CO? environments.
. Combines fundamentals, case studies, and practical guidance on corrosion mechanisms, material degradation, and integrity management.
. Addresses emerging issues such as hydrogen embrittlement, supercritical CO? corrosion, sour gas service, and high-pressure system challenges.
. Provides insights into materials selection criteria, coatings, failure analysis, and standards (e.g., ASME, ISO, NACE).
. Includes comprehensive coverage of current and future technologies like AI, smart coatings, and digital twins for corrosion prevention and system reliability.
. Targets a broad audience, including engineers, researchers, regulatory bodies, and students in materials science, corrosion engineering, and energy infrastructure sectors.
. Incorporates practical industry case studies, industry standards, and applied engineering approaches to support safer and more cost-effective low-carbon energy infrastructure development.