关键词: 跨声串列转子;前后排叶片;周向相对位置;轴向相对位置;堵塞系数;气动设计;高负荷风扇

Abstract: With transonic tandem rotor technology, fan stage rotor was accomplished, which produced total pressure ratio of 2.25 and responding loading coefficient (ψ=ΔH*/U²tip) of 0.55 at corrected tip speed of 381m/s. Based on the simulation results, the relative circumferential and axial position from forward blade to aft blade was analyzed in terms of the aerodynamic influence on tandem rotor performance and flow mechanism. The result indicates that the relative geometry position has great impact on blockage factor of aft blade as well as its axial velocity and relative flow angle at the inlet and outlet section, which changed the velocity triangle and results in the performance change of tandem rotor and respective blades. For the optimum choice of relative geometry,the tandem rotor would attain higher performance if there is 0.1~0.15 chord length overlap at chord-wise direction of forward blade and aft blade is closer to the forward blades pressure side. 

Key words: Transonic tandem rotor; Forward and aft blade; Relative circumferential position; Relative axial position; Blockage factor; Aerodynamic design; Highly loaded fan