NEAR WAKE OF A MODEL HORIZONTAL-AXIS WIND TURBINE 被引量：3

NEAR WAKE OF A MODEL HORIZONTAL-AXIS WIND TURBINE

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摘要 An experimental investigation on the properties of the near wake behind the rotor of a Horizontal-Axis Wind Turbine （HAWT） was carried out at model scale. Measurements were made with a stationary slanted hot-wire anemometer using the technique of phase-locked averaging. The primary aim is to study the formation and development of the three-dimensional wake. Five axial locations were chosen within four chord lengths of the blades over a range of tip speed ratios. The results show that during the downstream developmerit of the wake, the wake centre traces a helical curve with its rotation direction opposite to that of the rotor. The distribution of mean velocity behind the HAWT rotor reveals an expansion and a decay of the three-dimensional wake. The shapes of the mean velocity distribution are similar along the blades span at the same downstream axial location. It is shown that the turbulence levels in the wake are higher than those in the non-wake region. The circumferential component and the radial component of the turbulence intensity are higher than the axial component. Our study offers some food of thought for better understanding of the physical features of the flow field as well as the performance of HAWT. An experimental investigation on the properties of the near wake behind the rotor of a Horizontal-Axis Wind Turbine （HAWT） was carried out at model scale. Measurements were made with a stationary slanted hot-wire anemometer using the technique of phase-locked averaging. The primary aim is to study the formation and development of the three-dimensional wake. Five axial locations were chosen within four chord lengths of the blades over a range of tip speed ratios. The results show that during the downstream developmerit of the wake, the wake centre traces a helical curve with its rotation direction opposite to that of the rotor. The distribution of mean velocity behind the HAWT rotor reveals an expansion and a decay of the three-dimensional wake. The shapes of the mean velocity distribution are similar along the blades span at the same downstream axial location. It is shown that the turbulence levels in the wake are higher than those in the non-wake region. The circumferential component and the radial component of the turbulence intensity are higher than the axial component. Our study offers some food of thought for better understanding of the physical features of the flow field as well as the performance of HAWT.

作者 HU Dan-mei DU Zhao-hui

机构地区 School of Power and Enviromental Engineering School of Mechanical Engineering

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2009年第2期285-291,共7页 水动力学研究与进展B辑（英文版）

基金 Project supported by the National Natural Science Foundation of China(Grant No.50706025) the Shanghai Municipal Education Commission of China(Grant No.07ZZ144).

关键词 horizontal-axis wind turbine wake flow hot-wire anemometry EXPERIMENTAL horizontal-axis wind turbine, wake flow, hot-wire anemometry, experimental

分类号 TK83 [动力工程及工程热物理—流体机械及工程] TM315 [电气工程—电机]

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Journal of Hydrodynamics

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