Corrosion and Cracking Performance of Stainless Steels and Nickel Alloys in CCS Environments - Part II

Paper ID: C2025-00429 ABSTRACT: Carbon Capture and Storage (CCS) technology involves capturing CO2 and injecting into geological formations is a focus area for reducing CO2 emissions and sustainable future. One of challenges for CCS is material selection for well construction used in injection and storage where the materials can be subjected to complex environmental mix with various impurities present in the CO2 stream along with different phases within the well. Knowledge and understanding of corrosion and cracking performance of various materials in different environmental conditions relevant to CCS wells can provide a basis for material selection. Being a relatively new field there is an effort to build up knowledge base via testing, characterizing materials suitable for long term service.
In this study, which is continuation of work published last year, supermartensitic, duplex stainless steels along with Precipitation Hardenable (PH) Nickel Alloys were tested for both corrosion and cracking performance in low pH corrosive CCS type environments. The testing simulated exposure to injected fluid phase, interface between injected fluid and water phase and completely immersed in water phase. The details of testing performed results obtained along with discussions is presented so that it can provide guidance on material compatibility in the more corrosive CCS environments.