1. CO2 capture and storage from a bioethanol plant: Carbon and energy footprint and economic assessment.
- Author
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Laude, A., Ricci, O., Bureau, G., Royer-Adnot, J., and Fabbri, A.
- Subjects
CARBON sequestration ,ETHANOL as fuel ,ECOLOGICAL impact ,BIOMASS energy ,ATMOSPHERIC carbon dioxide ,SUGAR beets ,RATE of return ,DISCOUNTED cash flow ,ECONOMICS - Abstract
Abstract: Biomass energy and carbon capture and storage (BECCS) can lead to a net removal of atmospheric CO
2 . This paper investigates environmental and economic performances of CCS retrofit applied to two mid-sized refineries producing ethanol from sugar beets. Located in the Region Centre France, each refinery has two major CO2 sources: fermentation and cogeneration units. “carbon and energy footprint” (CEF) and “discounted cash flow” (DCF) analyses show that such a project could be a good opportunity for CCS early deployment. CCS retrofit on fermentation only with natural gas fired cogeneration improves CEF of ethanol production and consumption by 60% without increasing much the non renewable energy consumption. CCS retrofit on fermentation and natural gas fired cogeneration is even more appealing by decreasing of 115% CO2 emissions, while increasing non renewable energy consumption by 40%. DCF shows that significant project rates of return can be achieved for such small sources if both a stringent carbon policy and direct subsidies corresponding to 25% of necessary investment are assumed. We also underlined that transport and storage cost dilution can be realistically achieved by clustering emissions from various plants located in the same area. On a single plant basis, increasing ethanol production can also produce strong economies of scale. [Copyright &y& Elsevier]- Published
- 2011
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