Process safety challenges of CO2 sequestration
Clinton SmithThe APPEA Journal 61(2) 567-570 https://doi.org/10.1071/AJ20054
Accepted: 23 March 2021 Published: 2 July 2021
Abstract
Sequestration of carbon dioxide (CO2) is an increasingly popular method of reducing the environmental impact of natural gas and blue hydrogen development projects. While the hazards associated with natural gas processing are well understood, high pressure CO2 presents unique challenges which must be overcome by designers to make sequestration a safe and practical option. Many of these hazards are ultimately due to the CO2 phase envelope. Compression of CO2 for injection into a reservoir can involve the creation of a dense phase fluid, which shares some of the properties of both liquid and gas. Upset conditions can also create either liquid or solid CO2. These can create unforeseen consequences such as potential blockage and overpressure of vent piping, condensation and freezing of free water and inaccurate level transmitter readings. Further, the partial pressures of CO2 involved mean that corrosion rates for any carbon steel exposed in the presence of free water may be as high as 1 mm per week. These safety challenges and potential solutions to them will be explored in this study.
Keywords: sequestration, carbon dioxide, CO2, carbon capture and storage, process safety, corrosion, LNG, blue hydrogen.
Clinton Smith has 28 years of experience in the oil and gas industry, both onshore and offshore. He has an extensive background in operational support of brownfields facilities and leadership of both process and multidiscipline teams. Graduating from Curtin University with a Bachelor of Engineering (Chemical) in 1992 he gained significant experience in the design of gas transmission and metering facilities as well as gas storage plants. He spent several years working in operational support roles for onshore gas treatment plants where he earned a reputation for solving difficult process engineering problems quickly, before moving into a consulting role in 2010. For the past 5 years he has specialised as a HAZOP facilitator and is known for spotting problems that others have missed. He is a Principal Consultant Process Engineer with Atkins, where he is also the team leader of their Process and Flow Assurance team in Perth. |
References
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