关键词: 零质量射流+;粒子影像测速+;合成射流+;锁相技术

Abstract: In order to investigate the effect of depth on the performance of piston-driven synthetic jet,experimental research of three different orifice depths: h=1.5 mm,2 mm and 3.5 mm is presented by means of PIV.During one oscillation cycle 12 images in sequence are captured by phase-locked technique.In the current experiment,the time-averaged cross-stream velocity profiles of synthetic jet show the similarity to the 2D conventional jet.It is found that the peak values of mass flux,momentum flux and centerline velocity of synthetic jet increase in proportion to the depth of orifice.With the increasing of the depth of orifice,dimensionless distance from the stream-wise position of the peak values of mass and momentum flux of the jet to the orifice plane decreases.However,the dimensionless distance corresponding to the maximum centerline velocity increases.

Key words: Zero-net-mass-flux synthetic jet+;PIV+;Synthetic jet+;Phase-locked technique