Receptivity in transition prediction
Abstract
The laminar-turbulent transition is a complex phenomenon involved in
several multidisciplinary design issues, such as skin friction drag reduction,
anti-icing and de-icing system performance prediction and heat transfer rates
assessment. An accurate prediction of the boundary layer state is needed in
order to control its thickness by active or passive systems.
The state of the boundary layer is of high importance since skin friction
drag and heat transfer rates in a turbulent boundary layer can be several
times higher than those expected in laminar one. Furthermore, predicting
the state of the boundary layer in wind tunnels and ensuring the same state
during the real flight, by taking disturbances resulting from the experimental
set up into account, leads to the design of transition triggering devices.[edited by author]