Experiences and results on a 0.8 MWth oxy-fuel operation pilot-scale circulating fluidized bed

► Test results obtained on a pilot-scale oxy-fuel circulating fluidized bed are reported. ► Operation experiences were reported. It is noticed that high sulfur concentrations in the flue gas could lead to corrosion. ► Limestone performance for sulfur removal is impacted by the combustion mode. ► Smo...

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Bibliographic Details
Published in:Applied energy 2012-04, Vol.92, p.343-347
Main Authors: Tan, Y., Jia, L., Wu, Y., Anthony, E.J.
Format: Article
Language:English
Subjects:
Applied sciences
Carbon dioxide
Circulating
Circulating fluidized bed
CO 2 capture
Combustion
Energy
Exact sciences and technology
Flues
Fluidized beds
Oxy-fuel
Pollutants
Sulfur
Sulfur removal
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Summary:► Test results obtained on a pilot-scale oxy-fuel circulating fluidized bed are reported. ► Operation experiences were reported. It is noticed that high sulfur concentrations in the flue gas could lead to corrosion. ► Limestone performance for sulfur removal is impacted by the combustion mode. ► Smooth transition between air-fire mode and oxy-fuel fire mode was achieved with flue gas CO 2 concentration at 90%. Oxy-fuel circulating fluidized bed combustion (CFBC) is an alternate technology to oxy-fuel pulverized combustion (PC), which has a number of advantages that can often make it a better choice for CO 2 capture. This paper presents experimental results and operating experiences from a 0.8 MWth pilot-scale, oxy-fuel-fired circulating fluidized bed. Test work demonstrated smooth transition between air-fired and oxy-fuel-fired operation and stable oxy-fuel operation with CO 2 concentrations above 90% on a dry basis. Our experimental results also showed that limestone performance for sulfur removal is impacted by the combustion mode and that this impact depends on fuel characteristics as well as on combustion temperature. The test experiences showed that operating the pilot-scale unit over a long period under oxy-fuel mode led to enhanced corrosion due to higher sulfur concentrations in the flue gas. As demonstration projects of oxy-fuel CFB proceed in both Europe and North America, it is hoped that these tests can provide valuable data on the combustion characteristics, pollutant formation and operating experiences specific to this technology.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2011.11.037