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低压空气雾化烧嘴雾化细度的实验研究 被引量:3
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作者 马其良 张松寿 刘伟军 《华东工业大学学报》 1996年第3期63-68,共6页
探讨了低压空气雾化烧嘴的雾化机理,分析了影响雾化细度的主要因素,建立了该类烧嘴气体雾化的准则方程.以三种尺寸各异的喷头,在不同的一、二次风配比下进行了实验研究。
关键词 空气雾化烧嘴 细度 试验 工业炉窑
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Effect of Swirl Cup's Secondary Swirler on Flow Field and Ignition Performance 被引量:5
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作者 WANG Xiaofeng LIN Yuzhen +1 位作者 ZHANG Chi TIAN Xingpeng 《Journal of Thermal Science》 SCIE EI CAS CSCD 2015年第5期488-495,共8页
In a gas turbine engine combustor, highly swiding combustion is usually adopted to stabilize flame and reduce pollutant emissions. Swirl cup, as an air blast atomizer, is widely used to provide a uniform presentation ... In a gas turbine engine combustor, highly swiding combustion is usually adopted to stabilize flame and reduce pollutant emissions. Swirl cup, as an air blast atomizer, is widely used to provide a uniform presentation of fuel droplets to the combustor dome. This paper investigated the effect of secondary swirler on the flow field down- stream of the swirl cup using particle image velocimetry (PIV). Three swirl cups' non-reacting flow field were studied: case A, B and C with secondary swirler vane angle 53°, 60° and 68° respectively. Detailed mean and transient velocities and vorticity in the center plane were obtained. From the PIV results, a sharp contrast flow field was obtained for case A to other two cases due to the lower secondary swirling intensity. The recirculation zone is collapsed in disorder for the case A. Ignition tests of the three cups were completed in a single cup com- bustor. In general, the ignition performance increases with the increasing of the secondary swirling intensity. For case A, the ignition performance is very unstable and has much randomness and there is no clear lean ignition boundary can be generated. This work can further understand the swirl behavior and ignition mechanism. 展开更多
关键词 Swirl cup swirl number IGNITION PIV
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