REDUCTION OF NITROGEN OXIDES EFFLUENTS WITHIN AN OPEN FLAME BY INPUT THE WATER VAPOUR INTO COMBUSTION AIR FLOW

B. Soroka, A. Kornienko, V. Kudryavtsev, R. S. Karabchievskaya
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引用次数: 1

Abstract

The state-of-the art the problem concerning reduction the NOx formation by humidification the combustion air is briefly consideredan, alized and discussed. The proper technologies of combustion the wet inflammable mixtures are considered for the cases of using the water vapour pump (WVP), Maisotsenko cycle (M-cycle) and suitable facilities along with the cases of operation the combined systems with heat recovery due transfer the water vapour energy to working medium (combustion products). Both environmental and power advantages of the systems of «wet combustion» have been demonstrated accordingly data collected in some earlier researches. The results of experimental researches of burning process under conditions of input the water vapour into the gas–air mixture to be supplied for combustion are presented in the paper in frame of consideration the results of own authors’ tests. Given information concerning the investigation of environmental consequences of impact the water vapour within the inflammable mixture on nitrogen oxides NOx value in combustion products ([NOx] concentration) has been generalized. The techniques of experimental researches, the design of firing rig and instrumentation, used in the tests have been described. The distinction of ignition the natural gas-air mixture and of stable flame maintenance for case of free vertical flame operation have been evaluated in dependence on inflammable mixture’s composition along with studying of impact a moisture content — H2O concentration in initial gas-air mixture. Comparative evaluations of NO value within an open flame in dependence on temperature and on composition of initial natural gas — air mixture (ratio «air : gas») have been carried out. An opportunity of two-times reduction of maximum NOmax concentration within a flame by initial gas-air mixture enrichment with water vapour has been proven. Bibl. 23, Fig.10, Tab.1.
通过将水蒸气输入到燃烧气流中,在明火中减少氮氧化物排出物
本文对通过加湿燃烧空气来减少NOx生成的问题进行了简要的思考、认识和讨论。在使用水蒸汽泵(WVP)、Maisotsenko循环(M-cycle)和适当设施的情况下,考虑了适当的燃烧湿易燃混合物的技术,以及由于将水蒸汽能量转移到工作介质(燃烧产物)而进行热回收的联合系统的运行情况。“湿式燃烧”系统的环境和动力优势已经在一些早期研究中得到了相应的数据证明。本文结合作者的试验结果,介绍了在向供燃气体-空气混合物中输入水蒸气条件下燃烧过程的实验研究结果。鉴于有关可燃混合物中水蒸气对燃烧产物中氮氧化物(NOx)值([NOx]浓度)影响的环境后果调查的信息已得到推广。介绍了试验研究的技术方法、试验中所用的点火装置和仪器的设计。根据可燃性混合物的组成,研究了天然气-空气混合物初始含水率-水浓度对着火的影响,评价了天然气-空气混合物在自由垂直火焰运行情况下的着火和火焰稳定维持的区别。在明火中,根据温度和初始天然气-空气混合物的组成(空气:气体比例)对NO值进行了比较评估。已经证明,通过初始气体-空气混合物与水蒸气的富集,火焰内最大NOmax浓度有机会降低两倍。圣经23,图10,表1。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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