Experimental investigation of transition to turbulence as affected by passing wakes | Posted on:2001-01-16 | Degree:Ph.D | Type:Dissertation | University:University of Minnesota | Candidate:Kaszeta, Richard William | Full Text:PDF | GTID:1460390014957465 | Subject:Engineering | Abstract/Summary: | | Experimental results from a study of the effects of passing wakes upon laminar-to-turbulent transition in a low-pressure turbine passage are presented. The test section geometry is designed to simulate the effects of unsteady wakes resulting from rotor-stator interaction upon laminar-to-turbulent transition in turbine blade boundary layers and separated flow regions over suction surfaces. Single-wire, thermal anemometry techniques were used to measure time-resolved and phase-averaged, wall-normal profiles of velocity, turbulence intensity, and intermittency at multiple streamwise locations over the turbine airfoil suction surface. These data are compared to steady-state, wake-free data collected in the same geometry to identify the effects of wakes upon laminar-to-turbulent transition. Results are presented for flows with a Reynolds number based on suction surface length and stage exit velocity of 50,000 and an approach flow turbulence intensity of 2.5%. From these data, the effects of passing wakes and associated increased turbulence levels and varying pressure gradients on transition and separation in the near-wall flow are presented. The results show that the wakes affect transition both by virtue of their difference in turbulence level from that of the free-stream but also by virtue of their velocity deficit relative to the free-stream velocity, and the concomitant change in angle of attack and temporal pressure gradients. Most noteworthy is that the results of this study support the theory that bypass transition is a response of the near-wall viscous layer to pressure fluctuations imposed upon it from the free-stream flow. The data also show a significant lag between when the wake is present over the surface and when transition begins. | Keywords/Search Tags: | Transition, Wakes, Passing, Turbulence, Data, Effects, Results | | Related items |
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