Experimental study on reburning/advanced reburning performance of limestone modified by wood vinegar for NO reduction under O<sub>2</sub>/CO<sub>2</sub> atmosphere

LIU Hong-tao; HAN Kui-hua; LU Chun-mei; LI Hui

Volume 41 Issue 02

Feb. 2013

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LIU Hong-tao, HAN Kui-hua, LU Chun-mei, LI Hui. Experimental study on reburning/advanced reburning performance of limestone modified by wood vinegar for NO reduction under O2/CO2 atmosphere[J]. Journal of Fuel Chemistry and Technology, 2013, 41(02): 228-234.

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LIU Hong-tao, HAN Kui-hua, LU Chun-mei, LI Hui. Experimental study on reburning/advanced reburning performance of limestone modified by wood vinegar for NO reduction under O₂/CO₂ atmosphere[J]. Journal of Fuel Chemistry and Technology, 2013, 41(02): 228-234.

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Experimental study on reburning/advanced reburning performance of limestone modified by wood vinegar for NO reduction under O₂/CO₂ atmosphere

School of Energy and Power Engineering, Shandong University, Jinan 250061, China

Received Date: 2012-10-16
Rev Recd Date: 2012-12-26
Publish Date: 2013-02-28

Abstract

Abstract

NO reduction characteristics of reburning/advanced reburning using limestone modified by wood vinegar and calcium acetate, as well as selective non-catalytic reduction using ammonia, are investigated in a drop-tube system under O₂/CO₂ atmosphere. Results show that NO reduction efficiency of limestone modified by wood vinegar and calcium acetate through basic reburning increases first and then decreases with increasing temperature. The maximum NO reduction efficiency of 82.70% and 78.52% can be obtained at 1 323 K, respectively. High oxygen concentration is not conducive to NO reduction. The optimum reburning fuel fraction and residence time for basic reburning is 14%~17% and 0.8 s, respectively. The maximum NO reduction efficiency of selective non-catalytic reduction is 95.41% at 1 173 K in temperature window of 1 142~1 335 K. With increasing oxygen concentration, NO reduction efficiency declines continuously. The optimum [NH₃]/[NO] molar ratio and residence time for selective non-catalytic reduction is 1.5 and 1.2 s, respectively NO reduction efficiency of reburning is significantly increased, while the reaction temperature window is obviously broaden when ammonia is injected into reburning zone at [NH₃]/[NO] mol ratio of 0.75. The maximum NO reduction efficiency of limestone modified by wood vinegar and calcium acetate advanced reburning is 93.49% and 92.79% at 1 323 K, respectively.
- O₂/CO₂,
- wood vinegar,
- calcium acetate,
- advanced reburning,
- NO,
- selective non-catalytic reduction

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References

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