Abstract
This chapter deals with the capture and storage of carbon dioxide produced by the combustion of biomass. Since biomass combustion is potentially carbon neutral, this technique could provide a method of reducing the carbon dioxide concentration in the atmosphere. The general features of this future technology of ‘bioenergy carbon capture and storage’, known as BECCS, are outlined. These cover biomass combustion with air or oxygen, gasification and chemical looping. Carbon capture and storage processes are briefly discussed.
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References
Álvarez L, Gharebaghi M, Jones JM, Pourkashanian M, Williams A, Riaza J, Pevida C, Pis JJ, Rubiera F (2013) CFD modeling of oxy-coal combustion: prediction of burnout, volatile and NO precursors release. Appl Energy 104:653–665
Basu P (2013) Biomass gasification, Pyrolysis and Torrefaction practical design and theory. Academic Press, Waltham
Black S, Szuhánszki J, Pranzitelli A, Ma L, Stanger PJ, Ingham DB, Pourkashanian M (2013) Effects of firing coal and biomass under oxy-fuel conditions in a power plant boiler using CFD modeling. Fuel 113:780–786
CRECK (2014) http://creckmodeling.chem.polimi.it/
Edge PJ, Gharebaghi M, Irons R, Porter R, Porter RTJ, Pourkashanian M, Smith D, Stephenson PL, Williams A (2011) Combustion modeling opportunities and challenges for oxy-coal carbon capture technology. Chem Eng Res Des (Official J Eur Fed Chem Eng A) 89(9):1470–1493
Edge PJ, Heggs PJ, Pourkashanian M, Stephenson PL, Williams A (2012) A reduced order full plant model for oxyfuel combustion. Fuel 101:234–243
Gibbins J, Chalmers H (2008) Carbon capture and storage. Energy Policy 36:4317–4322
Gil MV, Riaza J, Álvarez L, Pevida C, Pis JJ, Rubiera F (2012) Kinetic models for the oxy-fuel combustion of coal and coal/biomass blend chars obtained in N2 and CO2 atmospheres. Energy 48:510–518
Gluyas J, Mathias S (2013) Geological storage of carbon dioxide. Woodhead Publishing, Cambridge
Hecht ES, Shaddix CR, Lighty JS (2013) Analysis of the errors associated with typical pulverized coal char combustion modeling assumptions for oxy-fuel combustion. Combust Flame 160:1499–1509
IPCC (2013) Climate change 2013: The physical science basis. In: Stocker TF et al (eds) Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
IPCC (2014) Climate change 2014: mitigation of climate change. www.ipcc.ch
Rackley S (2009) Carbon capture and storage. Butterworth, Heinemann. ISBN 9781856176361
Royal Society (2009) Geoengineering the climate science, governance and uncertainty. Royal Society, Sept 2009
Seepana S, Jayanti S (2010) Steam-moderated oxy-fuel combustion. Energy Convers Manag 51:1981–1988
Toftegaard MB, Brix J, Jensen PA, Glarborg P, Jensen AD (2010) Oxy-fuel combustion of solid fuels. Prog Energy Combust Sci 36:581–625
ZEP (2012) EU zero emissions platform—biomass with CO2 capture and storage (Bio-CCS)—the way forward for Europe, 2012. www.zeroemissionsplatform.eu
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Jones, J.M., Lea-Langton, A.R., Ma, L., Pourkashanian, M., Williams, A. (2014). Biomass Combustion: Carbon Capture and Storage. In: Pollutants Generated by the Combustion of Solid Biomass Fuels. SpringerBriefs in Applied Sciences and Technology. Springer, London. https://doi.org/10.1007/978-1-4471-6437-1_7
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DOI: https://doi.org/10.1007/978-1-4471-6437-1_7
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