Unraveling the Geometry Dependence of In-Nozzle Cavitation in High-Pressure Injectors

نویسندگان

  • Kyoung-Su Im
  • Seong-Kyun Cheong
  • Christopher F. Powell
  • Ming-chia D. Lai
  • Jin Wang
چکیده

Cavitation is an intricate multiphase phenomenon that interplays with turbulence in fluid flows. It exhibits clear duality in characteristics, being both destructive and beneficial in our daily lives and industrial processes. Despite the multitude of occurrences of this phenomenon, highly dynamic and multiphase cavitating flows have not been fundamentally well understood in guiding the effort to harness the transient and localized power generated by this process. In a microscale, multiphase flow liquid injection system, we synergistically combined experiments using time-resolved x-radiography and a novel simulation method to reveal the relationship between the injector geometry and the in-nozzle cavitation quantitatively. We demonstrate that a slight alteration of the geometry on the micrometer scale can induce distinct laminar-like or cavitating flows, validating the multiphase computational fluid dynamics simulation. Furthermore, the simulation identifies a critical geometric parameter with which the high-speed flow undergoes an intriguing transition from non-cavitating to cavitating.

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عنوان ژورنال:

دوره 3  شماره 

صفحات  -

تاریخ انتشار 2013