Carbon capture and storage from fossil fuels and biomass- costs and potential role in stabilizing the atmosphere

Azar, C., Lindgren, K., Larson, E., & Moellersten, K. (2006). Carbon capture and storage from fossil fuels and biomass- costs and potential role in stabilizing the atmosphere. Climatic Change 47-79. 10.1007/s10584-005-3484-7.

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Abstract

The capture and storage of CO2 from combustion of fossil fuels is gaining attraction as a means to deal with climate change. CO2 emissions from biomass conversion processes can also be captured. If that is done, biomass energy with CO2 capture and storage (BECS) would become a technology that removes CO2 from the atmosphere and at the same time deliver CO2-neutral energy carriers (heat, electricity or hydrogen) to society. Here we present estimates of the costs and conversion efficiency of electricity, hydrogen and heat generation from fossil fuels and biomass with CO2 capture and storage. We then insert these technology characteristics into a global energy and transportation model (GET 5.0), and calculate costs of stabilizing atmospheric CO2 concentration 350 and 450 ppm. We find that carbon capture and storage technologies applied to fossil fuels have the potential to reduce the cost of meeting the 350 ppm stabilisation targets by 50% compared to a case where these technologies are not available and by 80% when BECS is allowed. For the 450 ppm scenario, the reduction in costs is 40 and 42%, respectively. Thus, the difference in costs between cases where BECS technologies are allowed and where they are not is marginal for the 450 ppm stabilization target. It is for very low stabilization targets that negative emissions become warranted, and this makes BECS more valuable than in cases with higher stabilization targets. Systematic and stochastic sensitivity analysis is performed. Finally, BECS opens up the possibility to remove CO2 from the atmosphere. But this option should not be seen as an argument in favour of doing nothing about the climate problem now and then switching on this technology if climate change turns out to be a significant problem. It is not likely that BECS can be initiated sufficiently rapidly at a sufficient scale to follow this path to avoiding abrupt and serious climate changes if that would happen.

Item Type:	Article
Research Programs:	Forestry (FOR)
Bibliographic Reference:	Climatic Change; 74: 47-79 [2006]
Related URLs:	Publisher - http://www.springerlink.com/content/w30h4274h130580u/fulltext.pdf
Depositing User:	IIASA Import
Date Deposited:	15 Jan 2016 02:19
Last Modified:	27 Aug 2021 17:38
URI:	https://pure.iiasa.ac.at/7919

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