Abstract
The aeroelastic behaviour of a wing with an over-the-wing pylon-mounted ultra-high bypass ratio engine and high-lift devices is studied with a reduced-order model. Wing, pylon and engine structures are reduced separately using the modal approach and described by their natural frequencies and modes. The characteristic aerodynamic loads are investigated with steady and unsteady flow simulations of a two-dimensional profile section. These results indicate possible heave instabilities at strongly negative angles of attack. Three-dimensional effects are taken into account using an adapted lifting line theory according to Prandtl. Due to high circulations resulting from the high-lift systems, the effective angles of attack are in the range of the potential instabilities. The substructures and aerodynamic loads are coupled in modal space. For the wing without three-dimensional effects, the bending instability occurs at the corresponding negative angles of attack. Even though there is potential for improvement, including the three-dimensional effects shifts the endagered area to possible operation points.
Highlights
The number of flights is continuously increasing
Noise reduction is realised by an over-the-wing mounted ultra-high bypass ratio (UHBR) engine [3]
This paper describes the investigation of aeroelastic effects of a circulation controlled wing with an over-the-wing mounted UHBR engine
Summary
The number of flights is continuously increasing. To shorten the journey and ease the traffic at large airports, small existing airports are taken into consideration. The active system, the Coandă flap, is a combination of a trailing edge flap and a thin jet, described by its momentum coefficient It describes the ratio of introduced jet momentum per time at the jet exit section ṁ jetvjet to the freestream dynamic pressure q∞ and the wing reference area Aref. According to the Coandă effect [24] the thin jet is blown out upstream of the flap to deflect the flow to follow the curved surface This leads to an increase in lift, which has been investigated extensively [5,6,7, 9, 11, 16, 23]. The mesh used was adopted from previous detailed investigations in the CRC [1, 2]
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