Abstract

The wide-speed range characteristics of aerodynamic configuration for aircraft are critical to the design of the hypersonic vehicle, and many novel strategies have been proposed. As one of the valid schemes of aircraft with a wide-speed range, the vortex lift waverider with a wide-speed range has attracted an increasing attention. In the current study, the low speed aerodynamic performance of vortex lift waveriders with a wide-speed range has been investigated numerically by means of the three-dimensional implicit Reynolds-averaged Navier-Stokes (RANS) equations coupled with the SST k-ω turbulence model. At the same time, the numerical approaches employed have been validated against the available experimental data in the open literature. The obtained results show that the low speed lift-to-drag ratio of the cuspidal waverider is higher than that of the general osculating cone waverider, while the low speed lift-to-drag ratio of the delta-winged waverider is lower than that of the general osculating cone waverider except for the small and negative angles of attack. At the same time, the low speed vortex lift characteristics of the three types of osculating cone waveriders have been compares and analyzes, and some valuable conclusions have been obtained.

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