Influence of nozzle exit tip thickness on the performance and flow field of jet pump Xinping LONG
The Journal of Mechanical Science and Technology, vol. 22, no. 10, pp.1959-1965, 2008
Abstract : The influence of exit tip thickness of nozzle ¥ä
e on the flow field and performance of a jet pump was studied numerically
in this paper. It is found that ¥ä
e has influence on the distribution of turbulence kinetic energy k. If ¥ä
e is ignored, k
takes the highest value but dissipates rapidly than that of nozzle with a certain tip thickness. ¥ä
e also affect apparently the
development of tip vortex, which will occur near the exit tip of nozzle. The bigger the ¥ä
e is, the larger the vortex is. The
tip vortex develops with the increase of flow rate ratio q. When q=1 and ¥ä
e=0.6~0.8mm, a small vortex will be found
downstream the tip vortex. And a concomitant vortex happens down the tip vortex in the case of q=1 and ¥ä
e=0.8mm.
As q increases to 2, the downstream small vortex disappears and the concomitant vortex becomes bigger. It is also
found that the tip vortex might interact with the possible backflow that formed in the throat tube and parts of suction
chamber. The center of backflow was affect evidently by ¥ä
e. With the increase of ¥ä
e, the center of backflow under the
same q will go downstream. When ¥ä
e=0.4mm, the center of backflow goes farthest. Then, as the further increase of ¥ä
e,
the center of backflow will go back some distance. Although, ¥ä
e has relatively great influence on the flow field within
the jet pump, it exerts only a little impact on the performance of jet pump. When ¥ä
e=0.2~0.6mm, the jet pump possess
better performance. In most case, it is reasonable to ignore the nozzle exit tip thickness in performance prediction for
the purpose of simplicity.
Keyword :
Jet pump; Nozzle exit tip thickness; Numerical simulation; Tip vortex
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