Corrosion challenges in supercritical CO2 transportation, storage, and utilization-a review

Research activities for Carbon capture, utilization, and storage (CCUS) have been rapidly growing due to climate goals and investment opportunities over the past few decades. This work provides an overview of recent corrosion research progress under supercritical CO2 (s-CO2) conditions, focusing on the wet s-CO2 rich phase and s-CO2-saturated aqueous phase with various impurities. Major corrosion damages on core components of su-percritical CO2 transportation, storage, and utilization systems occur in these environments. In various s-CO2 environments, the structure and integrity of corrosion layers play a significant role in the overall corrosion ki-netics. Moreover, the understanding of corrosion kinetics laws in s-CO2 environments is currently inadequate, and there is considerable variability in reported corrosion outcomes. Most of the existing studies were conducted in static autoclaves with different exposure durations, making the obtained result lack consistency and high reliability for real operation consideration. In addition, significant knowledge gaps are identified and discussed. Potential research paths, including constructing novel iso-corrosion diagrams, understanding the protection and failure mechanisms of corrosion product layers, improving experimental methods, and developing standards and artificial intelligence approaches from both engineering application and fundamental scientific perspectives, are proposed. This review shall provide useful information and insights for the further development and deployment of the CCUS technology.

Automated summary

Research on corrosion under supercritical CO2 (s-CO2) conditions is important for the development of Carbon capture, utilization, and storage (CCUS) technology. This work provides an overview of recent progress in this area, highlighting the major corrosion damages and the role of corrosion layers. However, the understanding of corrosion kinetics laws in s-CO2 environments is currently inadequate, and there is a lack of consistency and reliability in reported corrosion outcomes. The review suggests potential research paths to address these gaps and improve the deployment of CCUS technology.