Aerodynamics coupling study on the tail cone electrical ducted fan integrated with fuselage

Abstract

The tail cone thruster configuration is an important layout to realize the hybrid electric propulsion technology. This study carries out numerical simulation on the scaling tail-cone electrical ducted fan integrated with fuselage. The performance change of the ducted fan under the boundary layer ingestion and the overall benefit in the tail cone thruster layout are investigated. The results show that compared with the isolated fan, the thrust of the tail cone thruster layout increases by 2%. The fan isentropic efficiency is decreased by 1.03%, but the fan propulsive efficiency is increased by 15.48%. The influence of the axial installation position of the fan on the aerodynamic performance is analyzed. The results show that as the axial installation position increases, the propulsive efficiency first increases and then decreases. When the axial installation position increases to 1.71D, the propulsive efficiency is increased by 0.26% compared with 1.58D. The investigation of angle of attack shows that the aerodynamic performance of the tail cone thruster layout has no obvious change in the range of 0° to 5° angle of attack. However, when the angle of attack increases from 10° to 15°, the overall thrust is decreased significantly by 42.60%.