Jak jistě víte, autor je původcem termínu „synthetic jet“ a iniciátorem celé této oblasti mechaniky tekutin.
Abstract: Flow transport processes in closed and open flow systems including fluid-surface interactions, heat and mass transfer, and mixing and stirring, are controlled by fluidic actuation. Control is effected by small-scale ejection of fluid at the flow boundary using actuator arrays based on synthetic jet technology. A unique feature of this fluidic actuation is that the jets are typically synthesized from the working fluid in the flow system and thus transfer linear momentum without net mass injection across the flow boundary obviating the need for input piping and complex fluidic packaging. In some applications, this approach relies on broad-band, nonlinear amplification of the low-level actuation input within the embedding flow to effect global modifications on scales that are one to two orders of magnitude larger than the characteristic scale of the actuation. Several applications of flow control using this fluidic approach will be presented, including virtual shaping of aerosurfaces for control of lift and drag, fluidic-driven heat transfer, and small-scale mixing.
Bližší informace: Prof. Ing. Václav Tesař, CSc., Ústav termomechaniky AV ČR v. v. i., tesar@it.cas.cz, tel. 266 052 270
© 2008–2012 Ústav termomechaniky AV ČR, v. v. i.