Estimation of wind turbine blade aerodynamic performances computed using different numerical approaches

IF 0.7 Q4 MECHANICS Theoretical and Applied Mechanics Pub Date : 2018-01-01 DOI:10.2298/tam171130004s
J. Svorcan, Ognjen Peković, Toni Ivanov
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引用次数: 4

Abstract

. Although much employed, wind energy systems still present an open, contemporary topic of many research studies. Special attention is given to precise aerodynamic modeling performed in the beginning since overall wind turbine performances directly depend on blade aerodynamic performances. Several models different in complexity and computational requirements are still widely used. Most common numerical approaches include: i) momentum balance models, ii) potential flow methods and iii) full computational fluid dynamics solutions. Short explanations, reviews and comparison of the existing computational concepts are presented in the paper. Simpler models are described and im- plemented while numerous numerical investigations of isolated horizontal-axis wind turbine rotor consisting of three blades have also been performed in ANSYS FLUENT 16.2. Flow field is modeled by Reynolds Averaged Navier– Stokes (RANS) equations closed by two different turbulence models. Results including global parameters such as thrust and power coefficients as well as local distributions along the blade obtained by different models are compared to available experimental data. Presented results include fluid flow visualizations in the form of velocity contours, sectional pressure distributions and values of power and thrust force coefficients for a range of operational regimes. Although obtained numerical results vary in accuracy, all presented numerical settings seem to slightly under- or over-estimate the global wind turbine parameters (power and thrust force coefficients). Turbulence can greatly affect the wind turbine aerodynamics and should be modeled with care.
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用不同数值方法计算风力机叶片气动性能的估计
. 尽管风能系统被大量使用,但它仍然是一个开放的、当代的研究课题。由于风力机的整体性能直接取决于叶片的气动性能,因此特别注意在开始时进行精确的气动建模。目前仍有几种复杂程度和计算要求不同的模型被广泛使用。最常见的数值方法包括:i)动量平衡模型,ii)势流法和iii)完整的计算流体动力学解。本文对现有的计算概念作了简短的解释、回顾和比较。在ANSYS FLUENT 16.2中描述和实现了较简单的模型,并对由三叶片组成的孤立水平轴风力发电机转子进行了大量的数值研究。流场是由两种不同的湍流模型封闭的Reynolds平均Navier - Stokes (RANS)方程来模拟的。将不同模型得到的推力系数、功率系数等全局参数和叶片局部分布与现有实验数据进行了比较。提出的结果包括流体流动的可视化形式的速度轮廓,截面压力分布和功率和推力系数的值在一系列的操作制度。虽然得到的数值结果在精度上有所不同,但所有给出的数值设置似乎都略微低估或高估了全局风力涡轮机参数(功率和推力系数)。紊流对风力机的空气动力学有很大的影响,应谨慎建模。
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
4
审稿时长
32 weeks
期刊介绍: Theoretical and Applied Mechanics (TAM) invites submission of original scholarly work in all fields of theoretical and applied mechanics. TAM features selected high quality research articles that represent the broad spectrum of interest in mechanics.
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