References

IEA, “Energy Technology Perspectives – Scenarios and Strategies to 2050,” http://www.iea.org/techno/etp/etp10/English.pdf2010.

T. Grant, et al., “Comparative Life Cycle Asessment of Potassium Carbonate and Monoethanolamine Solvents for CO2 Capture from Post Combustion Flue Gases,” International Journal of Greenhouse Gas Control, vol. In Press, 2013.

H. E. Benson, et al., “Improved Process for Carbon Dioxide Absorption uses Hot Carbonate Solutions,” Chemical Engineering Progress, vol. 52, pp. 433-8, 1956.

E. Solvay, “MANUFACTURE OF CAUSTIC SODA,” US362677A, 1887.

E. Gal and I. Jayaweera, “Chilled ammonia based CO2 capture system and method with water wash,” US20100083831A1, 2010.

A. Qader, et al., “Final Report for BCIA: Pre-Combustion CO2 Capture Technologies for Brown Coal Power Generation,” 2011.

A. Qader, et al., “Final Report for BCIA: Latrobe Valley Post-Combustion Capture,” 2011.

B. Hooper, et al., “Plant and process for removing carbon dioxide from gas streams,” Australia Patent 2006281992, 2006.

B. Hooper, et al., “A Process and Plant for Removing Acid Gases,” PCT/AU2011/000462 Patent PCT/AU2011/000462, 2011.

B. Hooper, et al., “A Reactor, Plant and Process,” PCT/AU2008/000664, 2008.

A. Hoadley and T. Harkin, “A Method and a System,” PCT/AU2011/000689, 2011.

P. H. M. Feron, “The potential for improvement of the energy performance of pulverised coal fired power stations with post-combsution capture of carbon dioxide,” in GHGT-9, Washington DC, USA, 2008.

Harkin, T., Hoadley, A. and Hooper, B. 2012. Optimisation of power stations with carbon capture plants – the trade-off between costs and net power. Journal of Cleaner Production, 34.

Harkin, T, Hoadley, and Hooper, B, 2012. Using multi-objective optimisation in the design of CO2 capture systems for retrofit to coal power stations. Energy – The International Journal, vol. 41 (1), pp. 228-235. Doi:10.1016/j.energy.2011.06.031

line