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Spray characteristics of different regions downstream of a swirl cup
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The spray characteristics of different regions downstream of swirl cups play a critical role in cold start and re-ignition of gas turbines.The spray measurements were performed at the fuel pressures of 0.5,0.8,1.0,1.5,and 2.0 MPa and the fuel temperatures of-23,-13,-3,7,17 and 27 ℃,respectively.The droplet size,droplet velocity,droplet number,and instantaneous spatial spray image of sprays from an aviation kerosene Jet-A were measured using a two-component phase Doppler particle analyzer and a digital off-axis holography system.As the fuel pressure and temperature increase,the Sauter Mean Diameter(SMD)and spray non-uniformity of the Spray Shear Layer(SSL)gradually decrease.As the fuel pressure increases,the SMD and spray non-uniformity of the Central Toroidal Recirculation Zone(CTRZ)gradually decrease,and the slopes of these curves both decrease.As the fuel pressure increases,the SMD and spray non-uniformity of the CTRZ rapidly decrease at the fuel temperature of-23 ℃,while slightly decrease at the fuel temperature of 27 ℃.The droplets in the CTRZ come from 3 different sources:simplex nozzle,venturi,and outside the CTRZ.As the fuel pressure increases,the proportion of droplets recirculated from outside the CTRZ decreases.This study proposed the concept of the"pressure critical point"for the swirl cups.As the fuel temperature decreases,the proportion of droplets recir-culated from outside the CTRZ increases below the critical pressure,while decreases above the crit-ical pressure.In addition,through the models of liquid film formation and breakup on the curved cylindrical wall,a semi-theoretical model was established to predict the SMD of SSL for swirl cups.The prediction uncertainty of this model is less than 6%for all 14 conditions in this paper.
Swirl cupSauter Mean Diameter(SMD)Spray non-uniformityAtomizing regionsSemi-theoretical predictionSpray nozzles
Donghui WANG、Yong HUANG、Hongzhou ZHANG
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Collaborative Innovation Center of Advanced Aero-Engine,School of Energy and Power Engineering,Beihang University,Beijing 102206,China
National Key Laboratory of Science and Technology,School of Energy and Power Engineering,Beihang University,Beijing 102206,China
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