Energy and Economic Analysis of the CO2 Capture from Flue Gas of Combined Cycle Power Plants
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Elsevier BV
Reference18 articles.
1. Rubin E.S., Mantripragada H., Marks A., Versteeg P., Kitchin J., The outlook for improved carbon capture technology, Progress in Energy and Combustion Science 38 (2012) 630-671.
2. Kannichea M., Gros-Bonnivarda R., Jauda P., Valle-Marcos J., Amannb J., Bouallou C., Pre-combustion, post-combustion and oxy- combustion in thermal power plant for CO2 capture, Applied Thermal Engineering 30 (2010) 53-62.
3. Marchioro Ystad P.A., Bolland O., Hillestad M., NGCC and hard-coal power plant with CO2 capture based on absorption. Energy Procedia; 2012.
4. Gouedard C., Picq D., Launay F., Carrette P.L., Amine degradation in CO2 capture. I. A review, International Journal of Greenhouse Gas Control 10 (2012) 244-270.
5. Botero C., Finkenrath M., Bartlett M., Chu R., Choi G., Chinn D., Redesign, Optimization, and Economic Evaluation of a Natural Gas Combined Cycle with the Best Integrated Technology CO2 Capture, Energy Procedia 1 (2009) 3835-3842.
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