减少管式炉燃料燃烧过程中氮氧化物排放的方法研究

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摘要

建立了管状炉内燃料燃烧的数学模型。该模型可以计算出不同炉体和燃烧器配置、不同体积流量和炉膛送风方式下废气中氮氧化物的浓度。为了验证所建立的数学模型的充分性,根据现行规定,对现有的燃料燃烧技术基本炉体设计进行了数值试验。运行炉出口氮氧化物浓度的计算值与实验值之间有轻微(2.3%)的差异,表明所建立的数学模型是适当的。随后的数值实验研究了各种燃料燃烧方案,以减少NOx排放,结果表明,在同一平面的燃烧器中使用两级燃烧是无效的。使用这种方法可以使NOx产量降低不超过10%。利用燃烧室高度进行两级燃烧的方法更为有效。向燃烧器供应过量空气系数为0.8的混合气体,并沿炉膛横截面供应较高的剩余空气,可使氮氧化物的总产量减少2.5倍。
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INVESTIGATION OF WAYS TO REDUCE EMISSIONS OF NITROGEN OXIDES DURING FUEL COMBUSTION IN TUBULAR FURNACES
A mathematical model of fuel combustion in tubular furnaces was developed. The model allows to calculate the concentration of nitrogen oxides in the exhaust gases for different configurations of the furnace and burners, different volume flow rates and methods of air supply to the furnace. In order to confirm the adequacy of the developed mathematical model, a numerical experiment was conducted for the existing basic furnace design with fuel combustion technology according to the current regulations. A slight (2.3%) discrepancy between the calculated and experimental values of the concentration of nitrogen oxides at the outlet of the operating furnace indicates the adequacy of the developed mathematical model. Subsequent numerical experiments to study various fuel combustion schemes for the purpose of decreasing NOx emission showed that the use of two-stage combustion in burners located in the same plane is ineffective. The use of this method allows to reduce the NOx yield by no more than 10%. The method of two-stage combustion by the height of the combustion chamber is more effective. The supply of a mixture of gases with an excess air coefficient of 0.8 to the burners and the supply of the remaining air higher along the cross section of the furnace allow reducing the total output of nitrogen oxides by 2,5 times.
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