Characteristic of NOx emissions in co-firing gases and modeling prediction

doi:10.16085/j.issn.1000-6613.2017-1207

Abstract

Abstract: The effect of heat adding rates of blast furnace gas, coke oven gas and coal on flue gas volume was theoretically analyzed in a 300MW boiler co-firing coal with gases. Moreover, the optimization test of NO_x emissions was conducted under the condition of heat adding rates and air staging, and the prediction models of NO_x emissions was established based on the experimental data. The result showed that the theoretical flue gas volume of coal co-fired with gases was equal to that of pure coal when the ratio of blast furnace gas and coke oven gas was 0.3. The co-combustion of blast furnace gas can decrease the difference of furnace temperature, being beneficial to control the NO_x emissions. The NO_x emissions concentration decreased and the unburned carbon in fly ash increased gradually with the increase of heat adding rate of blast furnace gas and the ratio of separated overfire air. By comprehensive measurement of the NO_x emission and carbon content of fly ash, the optimal ratio of heat adding rate between blast furnace gas and coke oven gas was 1.3, and the optimal ratio of separated overfire air was 24%. The comparative analysis of the three models indicated that the GABP model had the highest prediction accuracy and could accurately describe the nonlinear relationship between the input and output parameters of boiler.

Key words: coal combustion, air staging, NO_x emissions, model, neural networks

摘要： 以300MW煤/气混燃锅炉为研究对象，理论计算了高炉煤气、焦炉煤气及煤粉的热量混燃比对烟气量的影响特性，对混燃煤气协同分级配风条件下的NO_x排放特性进行了优化实验研究，利用实验数据建立了NO_x排放浓度的预测模型。结果表明：当高炉煤气与焦炉煤气配比为0.3时产生的理论烟气量与纯然煤工况相当；混燃高炉煤气使得炉膛温度温差减小，有利于控制NO_x排放；随着高炉煤气热量混燃比和分离燃尽风率的增加NO_x排放浓度逐渐降低，而飞灰含碳量逐渐增加。综合衡量NO_x排放浓度和飞灰含碳量，高炉煤气（BFG）与焦炉煤气（COG）的最佳热量混燃比配比应低于1.3，最佳的分离燃尽风率为24%。通过对比所建立的3种NO_x排放预测模型，发现遗传算法优化的BP神经网络模型具有较高的预测精度，能够准确表达锅炉输入参数和输出参数的非线性关系。

关键词: 煤燃烧, 分级配风, NO_x排放, 模型, 神经网络

CLC Number:

TK229.2

LIANG Zhanwei, CHEN Hongwei, YANG Xin, XU Wenliang, ZHAO Zhenghui. Characteristic of NO_x emissions in co-firing gases and modeling prediction[J]. Chemical Industry and Engineering Progress, 2017, 36(11): 4265-4271.

梁占伟, 陈鸿伟, 杨新, 许文良, 赵争辉. 混燃煤气气氛下NO_x排放特性与建模预测[J]. 化工进展, 2017, 36(11): 4265-4271.

References

[1] MUN T Y,TUMSA T Z,LEE U,et al.Performance evaluation of co-firing various kinds of biomass with low rank coals in a 500MWe coal-fired power plant[J].Energy,2016,115:954-962.
[2] AGBOR E,OYEDUN A O,ZHANG X,et al.Integrated techno-economic and environmental assessments of sixty scenarios for co-firing biomass with coal and natural gas[J].Applied Energy,2016,169:433-449.
[3] HOU S S,CHEN C H,CHANG C Y,et al.Firing blast furnace gas without support fuel in steel mill boilers[J].Energy Conversion Management,2011,52(7):2758-2767.
[4] FANG Q,MUSA A A B,WEI Y,et al.Numerical simulation of multifuel combustion in a 200 MW tangentially fired utility boiler[J].Energy Fuels,2012,26(1):313-323.
[5] 王春波,魏建国,盛金贵,等.300MW煤粉/高炉煤气混燃锅炉燃烧特性数值模拟[J].中国电机工程学报,2012,32(14):14-19. WANG Chunbo,WEI Jianguo,SHENG Jingui,et al.Numerical simulation of combustion characteristics of a 300 MW blast furnace gas/pulverized coal combined combustion boiler[J].Proceeding of the CSEE,2012,32(14):14-19.
[6] 易正明,肖慧,杜炳旭.钢厂煤气混烧锅炉运行优化的试验研究[J].武汉科技大学学报(自然科学版),2014,37(5):345-349. YI Zhengming,XIAO Hui,DU Bingxu.Experimental study on operation optimization of the gas/pulverized coal blended combustion boiler[J].Journal of Wuhan University of Science and Technology,2014,37(5):345-349.
[7] 邱步,张小松.配风方式对部分预混燃烧系统燃烧振荡的影响[J].化工学报,2012,63(4):1211-1216. QIU Bu,ZHANG Xiaosong.Influence of air distribution on combustion oscillation of partially premixed system[J].CIESC Journal,2012,63(4):1211-1216.
[8] 吴晓磊,刘波,任政,等.新型低氮燃气分级燃烧器燃烧特性和NO_x排放的CFD研究[J].化工进展,2014,33(9):2298-2303. WU Xiaolei,LIU Bo,REN Zheng,et al.CFD study on combustion properties and NO_x emission of reboiling furnace for xylene tower[J].Chemical Industry and Engineering Progress,2014,33(9):2298-2303.
[9] 刘波,吴雨,王元华,等.低NO_x工业燃气燃烧技术研究进展[J].化工进展,2013,32(1):199-204. LIU Bo,WU Yu,WANG Yuanhua,et al.Research progress on low-NO_x industrial gas combustion technology[J].Chemical Industry and Engineering Progress,2013,32(1):199-204.
[10] 吕太,闫晨帅,路昆,等.不同负荷下变SOFA风率对低NO_x燃烧特性影响分析[J].热能动力工程,2014,29(4):409-414. LV Tai,YAN Chenshuai,LU kun,et al.Analysis of the influence of the variable SOFA air ratio on low NO_x combustion characteristics[J].Journal of Engineering for Theamal Energy & Power,2014,29(4):409-414.
[11] 吕太,赵世泽.燃尽风位置高度对NO_x生成的影响[J].环境工程学报,2016,10(5):2541-2546. LV Tai,ZHAO Shize.Influence of over-fire air height on NO_x emission characteristics[J]. Chinese Journal of Environmental Engineering,2016,10(5):2541-2546.
[12] LV Y,LIU J,YANG T,et al.A novel least squares support vector machine ensemble model for NO_x emission prediction of a coal-fired boiler[J].Energy,2013,55(1):319-329.
[13] VAPNIK V N.The nature of statistical learning theory[M].New York:Springer-Verlag,2000.
[14] 王小川,史峰,郁磊,等.MATLAB神经网络43个案例分析[M].北京:北京航空航天大学出版社,2013. WANG Xiaochuan,SHI Feng,YU Lei,et al.MATLAB neural network 43 cases analysis[M].Beijing:Beijing University of Aeronautics and Astronautics Press,2013.
[15] 陈鸿伟,刘焕志,李晓伟,等.双循环流化床颗粒循环流率实验与BP神经网络预测[J].中国电机工程学报,2010,30(32):25-29. CHEN Hongwei,LIU Huanzhi,LI Xiaowei,et al.Experimental research on solids circulation rate in a double fluidized bed and BP neural network prediction[J].Proceedings of the CSEE,2010,30(32):25-29.
[16] 陈鸿伟,祁海波,杨新,等.提升管二次风对循环流率影响的试验及预测模型研究[J].太阳能学报,2013,34(6):1109-1114. CHEN Hongwei,QI Haibo,YANG Xin,et al.Research on effect of secondary air on solids circulation rate in DCFB and prediction model[J].Acta Energiae Solaris Sinica,2013,34(6):1109-1114.
[17] CHEN Hongwei,LIANG Zhanwei.Damper opening optimization and performance of a co-firing boiler in a 300 MWe plant[J].Applied Thermal Engineering,2017,123:865-873.
[18] 李新利,李玲,卢钢,等.基于火焰自由基成像和支持向量机的燃烧过程NO_x排放预测[J].中国电机工程学报,2015,35(6):1413-1419. LI Xinli,LI Ling,LU Gang,et al.NO_x emission prediction based on flame radical profiling and support vector machine[J].Proceeding of the CSEE,2015,35(6):1413-1419.
[19] 徐旭常,周力行.燃烧技术手册[M].北京:化学工业出版社,2008:50-60. XU Xuchang,ZHOU Lixing.Handbook of combustion technology[M].Beijing:Chemical Industry Press,2008:50-60.
[20] 刘吉臻,吕游,杨婷婷.基于变量选择的锅炉NO_x排放的最小二乘支持向量机建模[J].中国电机工程学报,2012,32(20):102-107. LIU Jizhen,LV You,YANG Tingting.Least squares support vector machine modeling on NO_x emission of boilers based on variable selection[J].Proceeding of the CSEE,2012,32(20):102-107.