循环流化床高氧气浓度下煤燃烧和氮氧化物排放特性

Coal Combustion and Nitrogen Oxide Emission at Oxygen-enriched Atmosphere in Circulating Fluidized Bed

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摘要在燃烧室直径100mm、高3 000mm的循环流化床热态实验系统上,进行了高氧浓度的O2/N2气氛下的煤燃烧实验。实验结果表明,当氧气浓度32.2%～33.1%、二次风氧气浓度52%的情况下,循环流化床可稳定运行;实验中一次风比例和一次风氧气浓度在51.1%～83.5%和28.0%～36.0%范围内变化时,循环流化床燃烧室流动和换热状况良好;采用较低的一次风比例和一次风氧气浓度都可有效降低NOx生成量,但对N2O生成量的影响不大;通过优化配风,煤的燃烧效率可以达到98.67%。 In order to investigate the characteristics of coal combustion and nitrogen oxide emission at oxygen-enriched O2/N2 atmosphere,experiments were carried out in the bench-scale circulating fluidized bed（CFB） facility with an inner diameter of 100 mm and a height of 3000 mm.The results show that the coal could combust stably in CFB with the oxygen concentration at 32.2% ~33.1% and the oxygen concentration of secondary air at 52%.When the primary air flux ratio ranges at 51.1%~83.5% and the oxygen concentration of the primary air at 28.0%~36.0%,the flow of bed meterials and heat transfer in CFB combustor have no transparent difference from that of coal combustion at air atmosphere.It is also presented that NOx emission could be reduced through lowering the primary air flux ratio and its oxygen concentration,however,it has no obvious effect on N2O emission.Coal combustion efficiency could reach 98.67% with the optimization of the air distribution.

作者段翠九赵科谭力吕清刚

机构地区中国科学院工程热物理研究所中国科学院研究生院

出处《锅炉技术》北大核心 2011年第6期24-27,36,共5页 Boiler Technology

基金国家自然科学基金项目(50906084) 中国博士后科学基金(20090450578) 中国科学院知识创新工程重要方向项目(KGCX2-YX-399+3)

关键词循环流化床燃烧 NOx N2O circulating fluidized bed combustion NOx N2O

分类号 TK229.66 [动力工程及工程热物理—动力机械及工程]

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参考文献9

1Umberto D, Alberto P. Performance modeling of a carbon dioxide removal system for power plants[J]. Energy Con- version and Management, 1999, 40(18):1899--1915.
2Toftegaard M B, Brix J, Jensen P A, et al. Oxy--fuel com- bustion of solid fuels[J]. Progress in Energy and Combustion Science, 2010, 36: 581--625.
3Jia L, Tan Y W, Wang C, et al. Experimental study of oxy --fuel combustion and sulfur capture in a mini--CFBC[J]. Energy and Fuels, 2007, 21:3160--3164.
4黄志军,邹春,初琨,丘纪华,郑楚光.O_2/CO_2循环燃烧中NO_x的中试实验研究[J].工程热物理学报,2009,30(12):2141-2144. 被引量：8
5王春波,周慧.小型循环流化床富氧燃烧NOx的生成试验与模拟研究[J].动力工程学报,2010,30(6):420-424. 被引量：5
6李庆钊,赵长遂,武卫芳,陈晓平,董伟.O_2/CO_2气氛下燃煤NO排放特性的实验研究[J].中国电机工程学报,2009,29(23):33-39. 被引量：24
7Courtemanche B, Levendis Y A. A laboratory study on the NO, NO2, SO2, CO and CO2 emissions from the combustion of pulverized coal, municipal waste plastics and tires[J]. Fuel, 1998, 77(3): 183--196.
8Loffler G, Andahazy D, Wartha C, et al. NOx and N2O for- mation mechanisms--a detailed chemical kinetic modeling study on a single fuel particle in a laboratory--scale fluidized hed[J]. Journal of Energy Resources Technology, 2001, 123(3) : 228--235.
9新井纪男赵黛青译.燃烧生成物的发生与抑制技术[M].北京:科学出版社,2001.218-220.

二级参考文献57

1刘彦,周俊虎,方磊,李艳昌,曹欣玉,岑可法.O_2/CO_2气氛煤粉燃烧及固硫特性研究[J].中国电机工程学报,2004,24(8):224-228. 被引量：58
2毛玉如,方梦祥,骆仲泱,吴学成,岑可法.循环流化床富氧燃烧技术的试验研究[J].锅炉技术,2004,35(6):27-31. 被引量：16
3Singh D, Croiset E, Douglas P L, et al. Techno-economic study of CO2 capture from an existing coal-fired power plant: MEA scrubbing vs. O2/CO2 recycle combustion[J]. Energy Conversion and Management, 2003, 44(19): 3073-3091.
4Rezvani S, Huang Y, Mcllveen-Wright D, et al. Comparative assessment of sub-critical versus advanced super-critical oxyfuel fired PF boilers with CO2 sequestration facilities[J]. Fuel, 2007, 86(14): 2134-2143.
5Kakaras E, Doukelis A, Giannakopoulos D, et al. Economic implications of oxyfuel application in a lignite-fired power plant [J]. Fuel, 20(17, 86(14): 2151-2158.
6Kakaras E, Koumanakos A, Doukelis A, et al. Oxyfuel boiler design in a lignite-fired power plant[J]. Fuel, 2007, 86(14): 2144-2150.
7Wall T F. Combustion processes for carbon capture[J]. Proceedings of the CombustionInstitute, 2007, 31(1): 31-47.
8Kimura N, Omata K, Kiga T, etal. The characteristics of pulverized coal combustion in O;CO2 mixtures for CO: recovery[J]. Energy Conversion and Management, 1995, 36(6-9): 805-808.
9Okazaki K, Ando T. NOx reduction mechanism in coal combustion with recycledCO2[J]. Energy, 1997, 22(2/3): 207-15.
10Hu Y, Naito S, Kobayashi N, et al. CO2, NOx and SO2 emissions from the combustion of coat with high oxygen concentration gases[J]. Fuel, 2000, 79(15): 1925-1932.

共引文献66

1Qinwen Liu,Yan Shi,Wenqi Zhong,Aibing Yu.Co-firing of coal and biomass in oxy-fuel fluidized bed for CO2 capture: A review of recent advances[J].Chinese Journal of Chemical Engineering,2019,27(10):2261-2272. 被引量：4
2段翠九,谭力,赵科,吕清刚.0.15MW循环流化床富氧燃烧试验研究[J].中国电机工程学报,2012,32(S1):138-142. 被引量：7
3王伟,卢欢亮,李明.医疗垃圾焚烧烟气净化技术述评[J].环境科学与技术,2005,28(2):101-103. 被引量：3
4李海英,张书廷,赵新华.城市生活垃圾焚烧产物中二噁英检测方法[J].燃料化学学报,2005,33(3):379-384. 被引量：21
5汪海贵,朱辰元,薛飞,阎珽,王芝秋.斯特林发动机中天然气扩散燃烧的数值分析[J].舰船科学技术,2005,27(5):32-37. 被引量：1
6孙旭光,姚强,郭鲁阳.飞灰改性脱硝催化剂小型工业化试验研究[J].热力发电,2006,35(10):24-27. 被引量：2
7张磊,杨学民,谢建军,丁同利,姚建中,宋文立,林伟刚.循环流化床燃煤过程NO_x和N_2O产生-控制研究进展[J].过程工程学报,2006,6(6):1004-1010. 被引量：33
8王学涛,徐斌,金保升,李延兵.城市生活垃圾焚烧飞灰中重金属污染与控制[J].锅炉技术,2007,38(1):64-68. 被引量：12
9邓伟强,曾令可,刘艳春,税安泽,王慧,段碧林.稀释剂对氮氧化物生成的影响[J].硅酸盐通报,2007,26(1):138-142.
10杨卫娟,周俊虎,杨亮,刘建忠,黄镇宇,岑可法.醋酸镁在NO生成过程中的还原作用机理[J].浙江大学学报（工学版）,2007,41(2):342-346. 被引量：5

1赵科,段翠九,谭力,吕清刚.流化床O_2/CO_2燃烧(Ⅱ)-高氧浓度的中试研究[J].热能动力工程,2012,27(3):350-354. 被引量：5
2段翠九,赵科,谭力,吕清刚.循环流化床高氧气浓度下的煤燃烧试验[J].工程热物理学报,2012,33(5):873-876.
3赵科,吕清刚,段翠九.流化床O_2/CO_2燃烧(Ⅰ)-高氧浓度下的燃烧实验[J].热能动力工程,2011,26(4):453-456. 被引量：7
4赵科,谭力,段翠九,吕清刚.流化床O_2/CO_2燃烧(Ⅴ)-褐煤的高氧浓度燃烧优化[J].热能动力工程,2013,28(2):158-163.
5郑军.300MW电站锅炉NO_X排放特性试验研究[J].湖北电力,2004,28(B09):33-35.
6杨建成,吴江全,胡亚民,孙绍增.高燃料氮烟煤空气分级燃烧氮氧化物排放特性实验研究[J].热能动力工程,2015,30(1):101-107. 被引量：13
7王正华,周昊,池作和,蒋啸,岑可法.不同煤种高温燃烧时NO_x排放特性的沿程分析[J].电站系统工程,2003,19(2):19-20. 被引量：5
8赵科,谭力,段翠九,吕清刚.流化床O_2/CO_2燃烧(Ⅳ)-氧浓度对NO_x和N_2O的影响[J].热能动力工程,2012,27(6):702-708. 被引量：1
9翁安心,周昊,王正华,池作和,蒋啸,岑可法.大型四角切圆煤粉炉常用煤种及其混煤燃烧时NO_x排放特性研究[J].热力发电,2003,32(10):18-21. 被引量：5
10宋景慧,谭巍.220t/h生物质循环流化床锅炉性能优化试验研究[J].锅炉技术,2015,46(2):34-38. 被引量：3

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循环流化床高氧气浓度下煤燃烧和氮氧化物排放特性

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