Study on the NOx formation of propane/ammonia co-combustion with a swirl burner

IF 5 Q2 ENERGY & FUELS Applications in Energy and Combustion Science Pub Date : 2023-12-30 DOI:10.1016/j.jaecs.2023.100242

Yong Wu , Mingyan Gu , Shuanglong Li , Xin Wei , Xiangyong Huang , Qifu Lin

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Abstract

Replacing traditional fuels with carbon free fuel ammonia is one of the important ways to achieve low carbon emissions. However, the problem of high concentration NOx formation in the process of ammonia combustion is still a topic of great concern. In this paper, the combustion experimental system was built to study the NOx generation characteristics of ammonia propane combustion for a swirl burner. The experimental results show that the addition of ammonia into propane flame greatly increases the amount of NOx, and reasonable organization of ammonia doping ratio and primary air ratio can effectively control the generation of NOx. When the ammonia doping ratio is less than 15%, the highest NOx appeared with the primary air ratio of 20%. When the ammonia ratio was greater than 15%, the increase of the primary air ratio had no obvious effect on the formation of NOx near the swirl burner. The flame temperature changes with the ammonia doping ratio, and when the ammonia doping ratio is 15%, the furnace gas temperature is the highest at each point along the furnace height.

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利用漩涡燃烧器研究丙烷/氨气共燃产生的氮氧化物

用无碳燃料氨取代传统燃料是实现低碳排放的重要途径之一。然而，氨燃烧过程中高浓度氮氧化物的形成问题仍是一个备受关注的话题。本文建立了燃烧实验系统，研究漩涡燃烧器氨丙烷燃烧的氮氧化物生成特性。实验结果表明，丙烷火焰中氨的加入大大增加了氮氧化物的生成量，合理组织氨的掺入比和一次风比可以有效控制氮氧化物的生成。当氨的掺入比小于 15%时，一次空气比为 20%时，NOx 的产生量最高。当掺氨比大于 15%时，一次空气比的增加对漩涡燃烧器附近 NOx 的形成没有明显影响。火焰温度随氨掺入比的变化而变化，当氨掺入比为 15%时，沿炉高各点的炉气温度最高。

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Applications in Energy and Combustion Science

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4.20

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