共查询到20条相似文献,搜索用时 187 毫秒
1.
2.
3.
4.
5.
6.
富氧燃煤锅炉再循环方式对烟气酸露点的影响 总被引:1,自引:1,他引:0
以某600 MW富氧燃煤锅炉为例,对其在3种不同再循环方式下烟气中H2O和SO2体积分数的变化进行了计算与分析,预测了烟气酸露点,并分析了再循环方式对尾部受热面低温腐蚀的影响.结果表明:富氧燃烧下烟气的酸露点比空气状况下高15K左右;再循环方式中脱硫脱水处理过程对烟气中H2O和SO2体积分数影响明显;3种再循环方式下烟气酸露点最大差值可高达11K;烟气酸露点随一次循环烟气比的增加呈下降趋势. 相似文献
7.
8.
9.
10.
11.
Staged combustion has been accepted as an effective way to reduce NOx emission. Based on the comparison of calculated results using Miller and Bowman's (1989, Progr. Energy Combust. Sci. 15 , 287) detailed elementary reaction model with experimental data, it is found effective to apply this model in the simulation of NO formation and destruction during staged combustion. Sensitivity analysis shows that C, CH, CH2 and HCCO play an important role in NO destruction and reduction under fuel staging. NO generated in the primary zone can be reduced greatly by staged combustion. Besides the air–fuel ratio in the primary combustion zone, the combustion temperature in the reburning zone and the mass factor of the reburning fuel in the overall fuel, the main factors which affect NO destruction and reduction are the position where reburning is introduced and the types of reburning fuel. It is found that reburning cannot be introduced too close to the primary combustion zone. The reburning fuels that can effectively stimulate NO to HCN are H2 and C2H4. Copyright © 1999 John Wiley & Sons, Ltd. 相似文献
12.
13.
This paper examines a detailed study of fuel lean reburning process applied to a 1.5 MW gas-fired boiler. Experimental and numerical studies were carried out to investigate the effect of the fuel lean reburning process on the NOX reduction and CO emission. Natural gas (CH4) was used as the reburn as well as the main fuel. The amount of the reburn fuel, injection location and thermal load of boiler were considered as experimental parameters. The flue gas data revealed that the fuel lean reburning process led to NOX reduction up to 43%, while CO emission was limited to less than 30 ppm for the 100% thermal load condition. The commercial computational fluid dynamics code FLUENT 6.3, which included turbulence, chemical reaction, radiation and NO modeling, was used to predict the fluid flow and heat transfer characteristics under various operational conditions in the boiler. Subsequently, predicted results were validated with available measured data such as gas temperature distributions and local mean NOX concentrations. The detailed numerical results showed that the recirculation flow developed inside the boiler was found to play an important role in improving the effectiveness of fuel lean reburning process. 相似文献
14.
15.
In this study, two types of coals were used as the reburning fuel to investigate the influence of the reburning zone stoichiometry SR2, the primary NO level and the particle size on NO reduction. For both coals, the NO reduction can reach as high as 60–70% in the tested SR2 range of 0.7–1.1. No optimum reburning zone stoichiometry was observed in this study. The NO reduction decreases monotonically with the decrease of reburning zone stoichiometry. The effect of particle size is only obvious for larger particle sizes. 相似文献
16.
再燃过程中HCN对NOx还原的重要性 总被引:13,自引:5,他引:8
在降低NOx排放的一系列方法中,燃料再燃是重要措施之一。通过对再燃区不同的空气过量系数和再燃温度条件下的数值计算,研究了天然气(CH4)作为再燃燃料时HCN对NO再燃过程和再燃率的影响。再燃区模拟烟气成分为:CO2=16.8%,O2=2%,NO=0.1%和平衡气体N2。研究发现,再燃燃料中含氮组分的存在,以及再燃区的工况条件都对NOx的再燃率有很大的影响。因此,在实施降低NOx排放的再燃技术过程中 相似文献
17.
18.
19.
定义还原1 gNO 消耗的煤量为脱硝煤耗.在煤粉携带炉上进行了再燃试验,对不同煤种、不同工况下的脱硝煤耗进行了研究,分析了挥发分含量、再燃区温度、氧浓度、再燃燃料比等因素对脱硝煤耗的影响.结果表明:脱硝煤耗不仅能直观反映出不同煤种在还原 NO 方面的特性差异,而且还能有效反映再燃过程投入与收益之比;脱硝煤耗随着挥发分含量增加呈线性降低;再燃区氧浓度越低,脱硝煤耗也就越低;在49/6和6%氧浓度条件下,提高再燃燃料比,脱硝煤耗显著下降;在2%氧浓度条件下,提高再燃燃料比,脱硝煤耗增加;再燃区温度升高时,脱硝煤耗下降,并且挥发分越高的煤,脱硝煤耗随温度的变化越显著. 相似文献