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Purification of oxyfuel-derived CO2

2009; Elsevier BV; Volume: 4; Issue: 2 Linguagem: Inglês

10.1016/j.ijggc.2009.07.004

1750-5836

Vince White, Laura Torrente‐Murciano, D.W. Sturgeon, David Chadwick,

Combustion and flame dynamics

Oxyfuel combustion in a pulverised fuel coal-fired power station produces a raw CO2 product containing contaminants such as water vapour plus oxygen, nitrogen and argon derived from the excess oxygen for combustion, impurities in the oxygen used, and any air leakage into the system. There are also acid gases present, such as SO3, SO2, HCl and NOx produced as byproducts of combustion. At GHGT8 (White and Allam, 2006) we presented reactions that gave a path-way for SO2 to be removed as H2SO4 and NO and NO2 to be removed as HNO3. In this paper we present initial results from the OxyCoal-UK project in which these reactions are being studied experimentally to provide the important reaction kinetic information that is so far missing from the literature. This experimental work is being carried out at Imperial College London with synthetic flue gas and then using actual flue gas via a sidestream at Doosan Babcock's 160 kW coal-fired oxyfuel rig. The results produced support the theory that SOx and NOx components can be removed during compression of raw oxyfuel-derived CO2 and therefore, for emissions control and CO2 product purity, traditional FGD and deNOx systems should not be required in an oxyfuel-fired coal power plant.