Project description
Testing flow control technologies for improved wing aerodynamics
The goal of the EU-funded COMPACT project is to design and manufacture a wing model with active and passive hybrid laminar flow control technologies for installation in the Modane’s S1MA wind tunnel. The model will be used to test the effectiveness of laminar flow control devices at transonic speeds (Mach number of about 0.85) and at high Reynolds numbers. The model will incorporate active or passive suction systems for delaying the transition from laminar to turbulent flow in the leading-edge region over two spanwise sections.
Objective
The aim of this project is to design and manufacture a large Hybrid Laminar Flow Control (HLFC) half model, representative of a civil transport aircraft wing, for installation in the ONERA S1MA tunnel. The model will be capable of testing the effectiveness of laminar flow control devices at transonic speeds (M~0.85) and high Reynolds number (>10x10x6/m).
The model will incorporate systems for delaying transition in the leading edge region over 2 spanwise sections. The outer section will address the HLFC requirements, using either active suction through the surface of the porous wing leading edge and or passive control. The active suction control methods will consist of a porous skin and the wing will incorporate pipework permitting suction to be applied through the porous surface using a suction source provided by the wind tunnel. The location of boundary layer transition at each section will be measured using the IR technique and the upper wing surface will therefore include an insulating material for the measurement of transition using IR thermography. As with all HLFC models, the surface finish will be very high quality with no steps or gaps. The suction system and instrumentation will be fully tested prior to delivery of the model. The inboard part of the wing will be equipped with both passive and active (wall suction) anti-contamination devices to investigate ways to control attachment line transition. The model will be fitted with a range of instrumentation including pressure tappings, unsteady pressure transducers, accelerometers, strain gauges and possibly hot films, all of which will be thoroughly tested during final assembly. Finally, on completion of the model assembly, the model deformation due to representative applied static loads will be measured.
Fields of science
Programme(s)
Funding Scheme
IA - Innovation actionCoordinator
21129 Hamburg
Germany
The organization defined itself as SME (small and medium-sized enterprise) at the time the Grant Agreement was signed.