Leveraging their background in industry and working on large carbon capture projects in the UK, Netherlands, Australia, and Canada, the authors examine the methodologies currently used to mitigate corrosion risks in supercritical CO2 streams saturated with impurities, highlighting areas of conservatism, and produce the next steps necessary to address the knowledge gap.

The authors will also propose work to address this gap, through an early-stage concept for a mesoscale experimental project which seeks to categorise the effect impurities have on supercritical CO2 transport. The project aims to reduce conservatism and allow greater uptake of carbon capture across industries.

Subject
Acids, Water, Composition, Industries, Pipelines, Lead, Liquids, Fluids, Impurities, Steel, Carbon capture, Risk management, Stress corrosion cracking
Keywords:
Supercritical, Dense, Liquid, CO2, corrosion, dehydration, impurities, thermodynamics
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2023
Association for Materials Protection and Performance (AMPP)
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