绕大攻角翼型加速流动的数值模拟

NUMERICAL SIMULATION OF ACCELERATED FLOW PAST AN AIRFOIL AT HIGH ANGLES OF ATTACK

  • 摘要: 采用有限体积法对绕30º大攻角NACA0015翼型的粘性不可压缩加速流动进行了二维数值模拟,计算了水道中以50mm/s2和100mm/s2两个加速度下绕翼型的非定常流动,最终稳定流速都为100mm/s,对应雷诺数为8000。通过计算给出了从静止到稳定流速的加速过程和完成加速后的详细瞬态流动结构和演化过程,并分析了加速度对流动结构的影响。计算结果表明启动过程绕大攻角翼型的加速流动结构复杂,该瞬态过程的流动分离现象也明显区别于稳态过程自生和自维持的分离流动,并且启动加速度大小对流动的分离、漩涡结构和强度等都有直接影响。

     

    Abstract: Accelerated flow past an NACA 0015 airfoil at an angle of attack of 30º during accelerating period was studied numeri- cally. The finite volume method was used to simulate the two-dimensional unsteady incompressible viscous flow. Two uniform ac-celerations of 50 mm/s2 and 100 mm/s2 were used to investigate the transient flow; the final uniform velocity was 100 mm/s for both cases and the Reynolds number was about 8000. The structure and development of transient flow were presented, and the effect of acceleration on flow structure was evaluated. The results of computations show that the structure of unsteady flow is complex during both the acceleration phase and the constant velocity phase. The separated flow structure during accelerating period differs from that of the steady state. The separated flow and the vortex structure and intensity are dependent upon the acceleration magnitude.

     

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