To study blade sweep effects on loss production and energy transfer a
numerical analysis has been undertaken on three 10-bladed fan rotors w
ith low-pressure ratio and different sweep. Pressure ratio and sweep a
re in the typical range of propfans, The results of two rotors with 30
-deg forward- and backward-swept blades are compared to those of an un
swept propfan rotor. The geometry of the profiles of the swept rotors
on each cylindrical position is identical with that of the unswept rot
or, The numerical analysis shows that the total pressure ratio of the
swept rotors is lower than that of the unswept rotor over the whole sp
an. Only in the vicinity of the hub is the pressure ratio higher in th
e case of the forward-swept rotor. The decrease of the total pressure
ratio at midspan, by sweeping the rotor, is due to an oblique shock wi
th lower preshock Mach number and an increase of the boundary layer at
the suction side. Sweeping the rotor has the effect to induce strong
radial pressure gradients at the leading edge. The deflection of the f
low towards and off the end-walls due to this pressure gradient has th
e effect of a changed diffusion and expansion of the flow in the vicin
ity of the end-walls, The emphasis of this article is not to directly
provide rotors with better pressure ratios and efficiencies, but to ex
plain the basic effects by sweeping fan-rotors as references for impro
ving the rotor-aerodynamic.