Journal
EXPERIMENTAL THERMAL AND FLUID SCIENCE
Volume 144, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.expthermflusci.2023.110871
Keywords
Compressor cascade; Blade wake; Laminar separation bubble; Turbulence production; PIV
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The vortex dynamics in the separated transitional flow and the near-wake over a C4 compressor blade were experimentally investigated. The interaction of laminar separation vortex and trailing edge vortex was captured using time-resolved particle image velocimetry. The contributions to turbulence production from various flow dynamics were separated based on the orthonormality of velocity components' proper orthogonal decomposition modes.
The vortex dynamics in the separated transitional flow and the near-wake over a C4 compressor blade at Rec = 24,000 and incidence angles of 0 degrees, 2.5 degrees, 5 degrees, 7.5 degrees, and 10 degrees are investigated experimentally. The laminar sepa-ration vortex shedding, the trailing edge vortex shedding, and the interaction of the two vortices are captured using the time-resolved particle image velocimetry. To separate the contributions to the overall turbulence production due to various flow dynamics, the orthonormality of proper orthogonal decomposition modes of the velocity components is utilized. When the laminar separation is close to the trailing edge, the laminar separation vortex locks in the wake instability with an approximately subharmonic of the von Karman frequency. Approximately 80 % of the turbulence is produced by the large-scale flow structure governed by the laminar separation vortex and trailing edge vortex. When the shear layer separates near the leading edge, the laminar separation vortex shedding frequency is lower with a smaller streamwise wavelength. The turbulence production rate contributed by the laminar separation vortex shedding increases with incidences. These novel experimental findings offer insight into transition mechanisms and turbulence modeling of the separated flow located near periodic wake flow.
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