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Hartmann共振管及超音速雾化喷嘴流场的数值模拟 被引量:9

Numerical Simulation of Flow in the Hartmann Resonance Tube and Flow in the Ultrasonic Gas Atomizer
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摘要 采用基于Roe解法的有限体积法,对Hartmann共振管中的气体流场进行了数值模拟,研究了当喷嘴轴线处存在针型激励器的情况下流场的振动情况,数值计算的结果与理论和相关的实验结果符合得较好.计算结果表明移除或引入激励器,将会使Hartmann共振管的共振模式发生转换.通过对超音速雾化喷嘴流场的数值模拟,研究了其中Hartmann共振腔和二级共振腔共同作用下的振动现象以及各物理参数对振动的影响,并对喷嘴中气流从亚音速向超音速的转变机理进行了研究. The gas flow in the Hartmann resonsnce tube was numencally investigated by the finite volume method based on the Roe solver. The oscillation of the now was studied with the presence of a needle actuator set along the nozzle axis. Numerical results agree well with the theoretical and experimental results available. Numerical results indicate that the resonance mode of the resonance tube will switch by means of removing or adding the actuator. The gas flow in the ultrasonic gas atomization (USGA) nozzle was also studied by the same numerical methods. Oscillation caused by the Hartmann resonance tube structure, coupled with a secondary resonator, in the USGA nozzle was investigated. Effects of the variation of parameters on the oscillation were studied. The mechanism of the transition of subsonic flow to supersonic flow in the USGA nozzle was also discussed based on numerical results.
出处 《应用数学和力学》 CSCD 北大核心 2007年第11期1261-1271,共11页 Applied Mathematics and Mechanics
关键词 Hartmann共振管 喷射雾化 超音速雾化喷嘴 有限体积法 Roe解法 Hartmann resonance tube spray atomization ultrasonic gas atomization finite volume method Roe solver
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