Cost Structure of a Postcombustion CO2 Capture System Using CaO

This paper presents the basic economics of an emerging concept for CO2 capture from flue gases in power plants. The complete system includes three key cost components:  a full combustion power plant, a second power plant working as an oxy-fired fluidized bed calciner, and a fluidized bed carbonator...

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Bibliographic Details
Published in:Environmental science & technology 2007-08, Vol.41 (15), p.5523-5527
Main Authors: Abanades, J. Carlos, Grasa, G, Alonso, M, Rodriguez, N, Anthony, E. J, Romeo, L. M
Format: Article
Language:English
Subjects:
Applied sciences
Atmospheric pollution
Calcium Compounds - chemistry
Carbon Dioxide - chemistry
Combustion and energy production
Costs and Cost Analysis
Exact sciences and technology
Oxides - chemistry
Pollution
Power Plants - economics
Prevention and purification methods
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Summary:This paper presents the basic economics of an emerging concept for CO2 capture from flue gases in power plants. The complete system includes three key cost components:  a full combustion power plant, a second power plant working as an oxy-fired fluidized bed calciner, and a fluidized bed carbonator interconnected with the calciner and capturing CO2 from the combustion power plant. The simplicity in the economic analysis is possible because the key cost data for the two major first components are well established in the open literature. It is shown that there is clear scope for a breakthrough in capture cost to around 15 $/t of CO2 avoided with this system. This is mainly because the capture system is generating additional power (from the additional coal fed to the calciner) and because the avoided CO2 comes from the capture of the CO2 generated by the coal fed to the calciner and the CO2 captured (as CaCO3) from the flue gases of the existing power plant, that is also released in the calciner.
ISSN:0013-936X
1520-5851
DOI:10.1021/es070099a