On the Use of Active Flow Control to Trim and Control a Tailles Aircraft Model

Jentzsch, Marvin Patrick, Jentzsch, Marvin Patrick

January 2017

The Stability And Control CONfiguration (SACCON) model represents an emerging trend in airplane design where the classical tube, wing and empennage are replaced by a single tailless configuration. The challenge is to assure that these designs are stable and controllable. Nonlinear aerodynamic behavior is observed on the SACCON at higher incidence angles due to leading edge vortex structures. Active Flow Control (AFC) used in preliminary design represents a promising solution to the longitudinal stability problems and this was demonstrated experimentally on a semi span model. AFC can be used to trim the SACCON in pitch and it alters forces and moments comparable to common control surface deflections. A combination of AFC and control surface deflection may increase the overall efficiency and opens up a variety of maneuvering possibilities. This implies that AFC should be treated concomitantly with other design parameters and should be considered in the preliminary design process already and not as an add-on tool. Integral force and moment data was supplemented by observations using Pressure Sensitive Paint (PSP) and flow visualization. Two arrays of individually controlled sweeping jets, one located along the leading edge and the other along the flap hinge provided the AFC input needed to alter the flow. The array positioned over the flap-hinge of the model was most effective in stabilizing the wing by decreasing the pitching moment at lower and intermediate angles of incidence. This effect was achieved by reducing the spanwise flow on the swept back portion of the wing through jet-entrainment that also affected the leading edge vortex. Leading edge actuation showed some beneficial effects by inhibiting the formation of the leading edge vortex near the wing tip. A preliminary study using suction was carried out. The tests were carried out at Mach numbers smaller than 0.2 and Reynolds numbers based on the root chord of the model that approached 10⁶.

Active Flow Control

Oscillating Jet

SACCON

Sweeping Jet

Tailles Aircraft

Trim

Sweeping Jet Film Cooling

Hossain, Mohammad Arif

21 September 2020

No description available.

Aerospace Engineering

Aerospace Materials

Engineering

Mechanical Engineering

Nozzle Guide Vane Sweeping Jet Impingement Cooling

Agricola, Lucas

12 October 2018

No description available.

Aerospace Engineering

Turbomachinery

Gas turbine

heat transfer

impingement

sweeping jet

thermal inertia

nozzle guide vane

additive manufacturing