1. Screening and techno-economic assessment of biomass-based power generation with CCS technologies to meet 2050 CO2 targets.
- Author
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Bhave, Amit, Taylor, Richard H.S., Fennell, Paul, Livingston, William R., Shah, Nilay, Dowell, Niall Mac, Dennis, John, Kraft, Markus, Pourkashanian, Mohammed, Insa, Mathieu, Jones, Jenny, Burdett, Nigel, Bauen, Ausilio, Beal, Corinne, Smallbone, Andrew, and Akroyd, Jethro
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BIOMASS gasification , *OPERATING costs , *ELECTRIC power production , *MONETARY incentives , *CARBON sequestration - Abstract
Biomass-based power generation combined with CO 2 capture and storage (Biopower CCS) currently represents one of the few practical and economic means of removing large quantities of CO 2 from the atmosphere, and the only approach that involves the generation of electricity at the same time. We present the results of the Techno-Economic Study of Biomass to Power with CO 2 capture (TESBiC) project, that entailed desk-based review and analysis, process engineering, optimisation as well as primary data collection from some of the leading pilot demonstration plants. From the perspective of being able to deploy Biopower CCS by 2050, twenty-eight Biopower CCS technology combinations involving combustion or gasification of biomass (either dedicated or co-fired with coal) together with pre-, oxy- or post-combustion CO 2 capture were identified and assessed. In addition to the capital and operating costs, techno-economic characteristics such as electrical efficiencies (LHV% basis), Levelised Cost of Electricity (LCOE), costs of CO 2 captured and CO 2 avoided were modelled over time assuming technology improvements from today to 2050. Many of the Biopower CCS technologies gave relatively similar techno-economic results when analysed at the same scale, with the plant scale (MW e ) observed to be the principal driver of CAPEX (£/MW e ) and the cofiring % (i.e. the weighted feedstock cost) a key driver of LCOE. The data collected during the TESBiC project also highlighted the lack of financial incentives for generation of electricity with negative CO 2 emissions. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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