Computational Fluid Dynamics Analysis of Multi-Bladed Horizontal Axis Wind Turbine Rotor

Nasim A. Mamaghani, P. Jenkins
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引用次数: 3

Abstract

The principal objective of this work was to investigate the 3D flow field around a multi-bladed horizontal axis wind turbine (HAWT) rotor and to investigate its performance characteristics. The aerodynamic performance of this novel rotor design was evaluated by means of a Computational Fluid Dynamics commercial package. The Reynolds Averaged Navier-Stokes (RANS) equations were selected to model the physics of the incompressible Newtonian fluid around the blades. The Shear Stress Transport (SST) k-ω turbulence model was chosen for the assessment of the 3D flow behavior as it had widely used in other HAWT studies. The pressure-based simulation was done on a model representing one-ninth of the rotor using a 40-degree periodicity in a single moving reference frame system. Analyzing the wake flow behavior over a wide range of wind speeds provided a clear vision of this novel rotor configuration. From the analysis, it was determined that the flow becomes accelerated in outer wake region downstream of the rotor and by placing a multi-bladed rotor with a larger diameter behind the forward rotor resulted in an acceleration of this wake flow which resulted in an increase the overall power output of the wind machine.
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多叶片水平轴风力机转子计算流体动力学分析
本研究的主要目的是研究多叶片水平轴风力机(HAWT)转子周围的三维流场及其性能特征。利用计算流体动力学商业软件包对这种新型转子的气动性能进行了评估。选择Reynolds平均Navier-Stokes (RANS)方程来模拟叶片周围不可压缩牛顿流体的物理特性。由于剪切应力输运(SST) k-ω湍流模型在其他HAWT研究中被广泛使用,因此我们选择该模型来评估三维流动行为。基于压力的仿真是在一个模型上完成的,代表了九分之一的转子,在一个单一的运动参考系系统中使用40度的周期性。通过分析大范围风速下的尾流行为,可以清楚地了解这种新型转子结构。通过分析可知,在转子下游的外尾流区流动加速,通过在前转子后面放置直径更大的多叶转子,使尾流加速,从而提高了风机的总输出功率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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