In aim at decreasing the consumption of the aircrafts, by reduction of the drag aerodynamic losses, the objectif is to limit the flow separation on the wings. In this context, Active Flow Control (AFC) based on air blowing actuator could be applied to wing junction, leading edge and rudders, as well as wing junctions with engines. Among this technology, the Synthetic Jet Actuators (SJA) are a solution without net mass flux. As the technology is now not well understood yet, SYNJET3C project aims at increase the knowledge of SJA in quiescent air condition and cross flow conditions by accurate modelling based on correlation with Wind Tunnel Test (WTT).
In the current situation of climate change and environmental preoccupation, the reduction of aircraft consumption is an important question for society.
The first objective of SYNJET3C is to characterize an existing SJA designed by Fraunhofer ENAS and actuated by a piezo-membrane.
The understanding and modelling of the behavior of this SJA will allow to define the performance to reach with the next generation of SJA.
A new prototype will be designed, manufactured and tested.