A new type of horizontal axis wind turbine adopting the Archimedes spiral blade is introduced for urban-use. Based on the angular momentum conservation law, the design formula for the blade was derived using a variety of shape factors. The aerodynamic characteristics and performance of the designed Archimedes wind turbine were examined using computational fluid dynamics (CFD) simulations. The CFD simulations showed that the new type of wind turbine produced a power coefficient (Cp) of approximately 0.25, which is relatively high compared to other types of urban-usage wind turbines. To validate the CFD results, experimental studies were carried out using a scaled-down model. The instantaneous velocity fields were measured using the two-dimensional particle image velocimetry (PIV) method in the near field of the blade. The PIV measurements revealed the presence of dominant vortical structures downstream the hub and near the blade tip. The interaction between the wake flow at the rotor downstream and the induced velocity due to the tip vortices were strongly affected by the wind speed and resulting rotational speed of the blade. The mean velocity profiles were compared with those predicted by the steady state and unsteady state CFD simulations. The unsteady CFD simulation agreed better with those of the PIV experiments than the steady state CFD simulations.
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机译:介绍了一种采用阿基米德螺旋叶片的新型水平轴风力涡轮机,供城市使用。根据角动量守恒定律,使用各种形状因子得出叶片的设计公式。使用计算流体动力学(CFD)模拟检查了设计的阿基米德风力涡轮机的空气动力学特性和性能。 CFD仿真显示,新型风力发电机产生的功率系数(C > p )约为0.25,与其他类型的城市用风力发电机相比,功率系数相对较高。为了验证CFD结果,使用缩小模型进行了实验研究。使用二维粒子图像测速(PIV)方法在叶片近场中测量瞬时速度场。 PIV测量结果表明,在轮毂下游和叶尖附近存在明显的涡旋结构。转子下游的尾流与叶尖涡流引起的感应速度之间的相互作用受到风速和叶片旋转速度的强烈影响。将平均速度曲线与通过稳态CFD和非稳态CFD模拟预测的速度曲线进行了比较。与稳态CFD模拟相比,非稳态CFD模拟与PIV实验的一致性更好。
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