Low Swirl Effect On Compact Spray and Combustion Systems Using Additive Manufactured Dual Airblast Injectors

Yeonse Kang, Jihwan Ahn, Fabian Hampp
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Abstract

Novel low swirl concepts provide a promising approach to ensure stable flame anchoring over an extensive operation condition range, necessary for optimising compact designs for liquid fuel combustors as used in hybrid aero-engine or micro gas turbines in terms of scalability and flexibility. The current study utilises seven different additive manufactured low swirler integrated into a dual airblast injection concept to delineate the influence of high momentum swirling air jet on spray atomization and combustion performance. The developed injector is designed for vane angles from zero to 45° for co- and counter-direction against the orientation of the liquid sheet ejected from the pre-filming pressure swirl injector. The spray atomization in swirl afflicted air jet is demonstrated by phase Doppler interferometry and shadowgraphy. The combustion process is analysed using OH* -chemiluminescence imaging and emission measurements. The results show that a circumferential gaseous flow acting on the wall-film amplifies the radial fuel penetration and atomization. The latter produces robust spray dispersion in response to variations of operational conditions. The effect of low swirl injection on combustion process of kerosene flames leads to a noticeably more compact and intensified heat release zone. In addition, non-monotonic decomposed mode energy with considerable NOx reduction is observed.
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使用添加剂制造的双空气喷射器的紧凑型喷雾和燃烧系统的低漩涡效应
新颖的低漩涡概念提供了一种很有前景的方法,可确保火焰在广泛的运行条件范围内稳定锚定,这对于优化混合航空发动机或微型燃气轮机中使用的液体燃料燃烧器的紧凑型设计,提高其可扩展性和灵活性是必不可少的。目前的研究采用了七种不同的添加剂制造的低漩涡器,并将其集成到双空气喷射概念中,以确定高动量漩涡空气射流对喷雾雾化和燃烧性能的影响。所开发的喷射器的叶片角度设计为零到 45°,可与预过滤压力漩涡喷射器喷射出的液片方向形成同向和反向。通过相位多普勒干涉测量法和阴影测量法展示了漩涡气流中的喷雾雾化情况。使用 OH* 化学发光成像和发射测量分析了燃烧过程。结果表明,作用在壁膜上的周向气流扩大了燃料的径向渗透和雾化。后者可根据运行条件的变化产生稳定的喷雾分散。低漩涡喷射对煤油火焰燃烧过程的影响导致热释放区明显更加紧凑和强化。此外,还观察到非单调分解模式能显著减少氮氧化物。
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