1. Towards Commercial Scale Postcombustion Capture of CO2 with Monoethanolamine Solvent: Key Considerations for Solvent Management and Environmental Impacts

2. Worst case scenario study to assess the environmental impact of amine emissions from a CO2 capture plant

3. Atmospheric chemistry and environmental impact of the use of amines in carbon capture and storage (CCS)

4. da Silva, E. F.; Kolderup, H.; Goetheer, E.; Hjarbo, K. W.; Huizinga, A.; Khakharia, P.; Tuinman, I.; Mejdell, T.; Zahlsen, K.; Vernstad, K.; Hyldbakk, A.; Holten, T.; Kvamsdal, H. M.; van Os, P.; Einbu, A.Emission Studies from a CO2Capture Pilot Plant.Energy Procedia 2013, in press.

5. Nielsen, C. J.; D’Anna, B.; Karl, M.; Aursnes, M.; Boreave, A.; Bossi, R.; Bunkan, A. J. C.; Glasius, M.; Hallquist, M.; Hansen, A.M. K.; Kristensen, K.; Mikoviny, T.; Maguta, M. M.; Müller, M.; Nguyen, Q.; Westerlund, J.; Salo, K.; Skov, H.; Stenstrøm, Y.; Wisthaler, A.Atmospheric Degradation of Amines (ADA). Summary Report: Photo-Oxidation of Methylamine, Dimethylamine and Trimethylamine; OR 2/2011;Norwegian Institute for Air Research:Kjeller, Norway, 2011; p140.