Вплив форми крила на характеристики при використанні інтегрованої роторної силової установки літака

Abstract

The subject of the study is the optimization of aerodynamic characteristics by improving the wing profile shape for the fan-wing configuration. The aim of this work is to find a more universal wing shape suitable for various aircraft. The task is to compare the characteristics of three wings with the same rotor engine installed in the nose section, including the base wing used in most previous studies by scientists. Sources suggested that this profile is not well-suited for rotor engines with a large aspect ratio. Experimental methods were used to measure the dynamic characteristics of three wing profiles: a flat curved profile with a cut-out in the rear wing section, a flat lower surface profile, an S-shaped profile with a lower surface bend in the rotor area, and a two-bend contour with a cut-out in the rear wing section on top and bottom. The results showed an improvement in characteristics compared with wing-rotor engine schemes used in previous cases. Specifically, an increase in the flow velocity at the wing exit of 3...8 % depending on the power plant operating mode was found, which led to an increase in lift up to 20 % depending on the flight mode, and an increase in thrust up to 16 %. Conclusions. The proposed S-shaped profile with a lower surface bend in the area of the rotor hub, and a profile with two bends in the contour with a cut in the rear part of the wing from the top and bottom contours have the most optimal and balanced characteristics. In the future, it is planned to manufacture these profiles using composite materials to reduce weight and install them on the aircraft prototype, replacing the rotor structure with a more flexible one using more flexible materials such as PETG plastic for the synchronization of the installed rotor motors, which is necessary to increase reliability and backup the rotor drive. Additionally, several sections with independent engines are planned to be made on each wing console to counteract rotor rupture in the event of engine failure. Due to significant advantages over the standard profile shape and minor structural complexity, the manufacture of more complex profile shapes can find wide applications in aircraft designed according to the fan-wing scheme.