1] SMOOT L D, HILL S C, XU H. NOx control through reburning[J].Progress in Energy and Combustion Science,1998, 24(5): 385408.
[2] LI Sen, XU Tongmo, ZHOU Qulan, et al. Optimization of coal reburnning in a 1MW tangentially fired furnace[J]. Fuel, 2007, 86(78): 11691175.
[3] MALY P M, ZAMANSKY V M, HO L, et al.Alternative fuel reburning[J].Fuel, 1999, 78(3): 327334.
[4] 周昊,邱坤赞,王智化,等.煤种及煤粉细度对炉内再燃过程脱硝和燃尽特性的影响[J].燃料化学学报,2004, 32(2): 146150.
ZHOU Hao, QIU Kunzan, WANG Zhihua, et al. Study of coal rank and fineness on NOx reduction with coal reburning technology[J]. Journal of Fuel Chemistry and Technology, 2004, 32(2): 146150.
[5] JAMAL B M. Micronized coal reburn demonstration project for NOx control at the New York State Electric & Gas tangentiallyfired Milliken Unit 1[R].USA, CONSOL Inc. Research & Development, 1999.
[6] 池作和,李剑,应明良,等.利用超细煤粉再燃降低煤粉炉NOx排放技术报告[R].杭州:浙江大学,2006.
CHI Zuohe, LI Jian, YING Mingliang, et al. Technical report on applying micronized coal reburning technology to reduce NOx emissions of a pulverizedcoal fired boiler [R]. Hangzhou: Zhejiang University, 2006.
[7] 潘维,池作和,斯东波,等.200MW四角切圆燃烧锅炉改造工况数值模拟[J].中国电机工程学报,2005,25(8): 110115.
PAN Wei, CHI Zuohe, SI Dongbo, et al. Numerical simulation of combustion process in a 200 MW tangentially fired furnace to study furnace reconstruction[J]. Proceedings of the CSEE, 2005, 25(8): 110115.
[8] SMOOT L D, SMITH P J. Coal combustion and gasification [M]. New York, USA: Plenum Press, 1985.
[9] HILL S C, SMOOT L D. Modeling of nitrogen oxides formation and destruction in combustion systems [J]. Progress in Energy and Combustion Science, 2000, 26(46): 417458.
[10] 岑可法,姚强,骆仲泱,等.燃烧理论与污染控制[M].北京:机械工业出版社,2004.
[11] JAVIER P, INMACULADA A, ALAN W. Integration of CFD codes and advanced combustion models for quantitative burnout determination[J]. Fuel, 2007, 86(15): 22832290.
[12] HURT R, SUN JK, LUNDEN M. A kinetic model of carbon burnout in pulverized coal combustion[J]. Combustion and Flame, 1998, 113(12): 181197.
[13] ANTONIO M, DAVID M, STEVEN H P. Demonstration project for the abatement of nitrogen oxides emissions using reburn technology for cogeneration plants in Taiwan[R]. USA: GE Energy and Environmental Research Corporation, 2003.
[14] LIU H, HAMPARTSOUMIAN E, GIBBS B M. Evaluation of the optimal fuel characteristics for efficient NO reduction by coal reburning[J].Fuel, 1997, 76(11): 985993.
[15] 刘忠,阎维平,高正阳.停留时间对微细煤粉再燃还原NO效率的影响[J].燃烧科学与技术,2004,10(4): 354358.
LIU Zhong, YAN Weiping, GAO Zhengyang. Effect of the residence time on achieving NO reduction with pulverized coal reburning[J].Journal of Combustion Science and Technology, 2004, 10(4): 354358. |