A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CO2 capture with monoethanolamine: Solvent management and environmental impacts during long term operation at the Technology Centre Mongstad (TCM)
Highlights Solvent management was studied during long term of operation at TCM. It is found key indicators for the solvent degradation and process performance. Ammonia and amine emission are important for assessing environmental impacts. Ammonia emission will give a direct indication of MEA solvent degradation. Reclaiming was used to keep the solvent as clean as possible.
Abstract The owners of the Technology Centre Mongstad (TCM DA) started a monoethanolamine (MEA) test campaign in June 2017. The main objective was to produce knowledge and information that can be used to reduce the cost as well as technical, environmental and financial risks of commercial scale deployment of post-combustion capture (PCC). The campaign covered experimental activities in the amine plant from the 12th of June 2017 until the 30th of July 2018. A wide range of operating conditions were applied, thus giving a unique opportunity to study the impacts on the solvent quality, degradation behavior, corrosion tendency and emissions to the atmosphere. The current work describes how solvent quality and low emissions to atmosphere can be maintained during long-term operation by appropriate solvent management.
CO2 capture with monoethanolamine: Solvent management and environmental impacts during long term operation at the Technology Centre Mongstad (TCM)
Highlights Solvent management was studied during long term of operation at TCM. It is found key indicators for the solvent degradation and process performance. Ammonia and amine emission are important for assessing environmental impacts. Ammonia emission will give a direct indication of MEA solvent degradation. Reclaiming was used to keep the solvent as clean as possible.
Abstract The owners of the Technology Centre Mongstad (TCM DA) started a monoethanolamine (MEA) test campaign in June 2017. The main objective was to produce knowledge and information that can be used to reduce the cost as well as technical, environmental and financial risks of commercial scale deployment of post-combustion capture (PCC). The campaign covered experimental activities in the amine plant from the 12th of June 2017 until the 30th of July 2018. A wide range of operating conditions were applied, thus giving a unique opportunity to study the impacts on the solvent quality, degradation behavior, corrosion tendency and emissions to the atmosphere. The current work describes how solvent quality and low emissions to atmosphere can be maintained during long-term operation by appropriate solvent management.
CO2 capture with monoethanolamine: Solvent management and environmental impacts during long term operation at the Technology Centre Mongstad (TCM)
Morken, Anne Kolstad (author) / Pedersen, Steinar (author) / Nesse, Stein Olav (author) / Flø, Nina Enaasen (author) / Johnsen, Kim (author) / Feste, Jane Karin (author) / de Cazenove, Thomas (author) / Faramarzi, Leila (author) / Vernstad, Kai (author)
International Journal of Greenhouse Gas Control ; 82 ; 175-183
2018-12-27
9 pages
Article (Journal)
Electronic Resource
English
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