Geometry effect of isolated roughness on boundary layer transition investigated by tomographic PIV

Geometry effect of isolated roughness on boundary layer transition investigated by tomographic PIV

Ye, Q. (TU Delft Aerodynamics)
Schrijer, F.F.J. (TU Delft Aerodynamics)
Scarano, F. (TU Delft Flow Physics and Technology)

Flow Physics and Technology

2016

Boundary layer transition over isolated roughness elements is investigated in the incompressible flow regime using tomographic PIV. Four different geometries (cylinder, square, hemisphere and micro-ramp) are considered maintaining constant height and span of the element. The main target is to compare the different flow topologies and study the effect of the element shape on accelerating boundary layer transition. The measurement domain encompasses the full transition process until the turbulent regime is established. The flow behavior is described by means of vortex topology and by statistical analysis of the velocity fluctuations. The instantaneous flow topology elucidates the mechanism of transition along its stages. A main distinction is observed between the bluff front elements that induce a horseshoe vortex due to upstream flow separation, leading to more rapid transition and the slender micro-ramp, requiring significant longer distance for transition onset. The mechanism of sideward propagation of the turbulent non-turbulent interface features a continuous convection and generation of hairpin-like vortices and remains the common denominator among all elements considered.

Transition
Roughness element
Geometry effect
Tomographic PIV
Vortical structures

http://resolver.tudelft.nl/uuid:35791efb-8984-487f-96af-476d4845cc64

https://doi.org/10.1016/j.ijheatfluidflow.2016.05.016

2018-11-01

0142-727X

International Journal of Heat and Fluid Flow, 61 (Part A), 31-44

9th Symposium on turbulence and shear flow phenomena, tsfp-9, Melbourne, Australia, 2015-06-30 → 2015-07-03, Melbourne

Institutional Repository

journal article

© 2016 Q. Ye, F.F.J. Schrijer, F. Scarano