NO emission from high temperature air combustion of natural gas with longitudinal and swirling burner

Yaxin Su, Wen-yi Deng, Fan Jiang
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Abstract

Thermal nitrogen oxide (NO) emission is the major pollutant from industrial furnace. High temperature air combustion is an advanced technology to control NO emission, which carries out the combustion at highly preheated air and dilute oxygen conditions. The combustion performance of natural gas with highly preheated air was numerically simulated in an industrial furnace with a longitudinal and swirling burner respectively. The probability density function (PDF) combustion model, discrete ordinate (DO) radiation model and the Reynolds stress turbulent model (RM) were adopted for the modeling. Results showed that swirling burner was effective to reduce the final NO emission and improve the fuel burnout. When the longitudinal burner was substituted by a swirling burner with 180° swirling angle, the NO emission decreased from 35.2 ppm to 12.3 ppm, while the maximum and mean temperature in the furnace increased 38K and 58K. The CO emission also decreased from 379 ppm to 29 ppm, which implied a better burnout was achieved.
纵向和旋流燃烧器对天然气高温空气燃烧的NO排放
热态氮氧化物(NO)是工业窑炉排放的主要污染物。高温空气燃烧是一种控制NO排放的先进技术,它在空气高度预热和氧气稀薄的条件下进行燃烧。对天然气在高预热空气条件下的燃烧性能进行了数值模拟。采用概率密度函数(PDF)燃烧模型、离散坐标(DO)辐射模型和雷诺应力湍流模型(RM)进行建模。结果表明,采用旋流燃烧器可以有效地降低最终NO排放,改善燃料燃度。将纵向燃烧器换成旋转角度为180°的旋转燃烧器后,NO排放量从35.2 ppm降至12.3 ppm,炉膛最高温度和平均温度分别提高了38K和58K。CO排放量也从379 ppm下降到29 ppm,这意味着实现了更好的燃尽。
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