A simple vortex model applied to an idealized rotor in sheared inflow

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Wind Energy Science Pub Date : 2023-04-06 DOI:10.5194/wes-8-503-2023
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Abstract

Abstract. A simple analytical vortex model is presented and used to study an idealized wind turbine rotor in uniform and sheared inflow, respectively. Our model predicts that 1D momentum theory should be applied locally when modelling a non-uniformly loaded rotor in a sheared inflow. Hence the maximum local power coefficient (expressed with respect to the local, upstream velocity) of an ideal rotor is not affected by the presence of shear. We study the interaction between the wake vorticity generated by the rotor and the wind shear vorticity and find that their mutual interaction results in no net generation of axial vorticity: the wake effects and the shear effects exactly cancel each other out. This means that there are no resulting cross-shear-induced velocities and therefore also no cross-shear deflection of the wake in this model.
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一个应用于剪切流入中理想化转子的简单涡流模型
摘要提出了一个简单的涡流分析模型,并分别用于研究理想化的风机转子在均匀流和剪切流中的涡流。我们的模型预测,当对剪切流入中的非均匀加载转子进行建模时,应局部应用1D动量理论。因此,理想转子的最大局部功率系数(相对于局部上游速度表示)不受剪切的影响。我们研究了转子产生的尾流涡度和风切变涡度之间的相互作用,发现它们的相互作用导致轴涡度没有净产生:尾流效应和切变效应正好相互抵消。这意味着在该模型中没有产生横向剪切诱导速度,因此也没有尾流的横向剪切偏转。
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来源期刊
Wind Energy Science
Wind Energy Science GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
6.90
自引率
27.50%
发文量
115
审稿时长
28 weeks
期刊最新文献
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